CN115484386A - Video shooting method and electronic equipment - Google Patents

Abstract

The application provides a video shooting method and electronic equipment, relates to the technical field of terminals, and intelligently sets a beautifying effect under the condition that two cameras are switched to be used for collecting images so as to automatically close the beautifying effect of a rear camera. The electronic equipment displays a first interface, the first interface comprises a first preview image, and the first preview image is obtained by adding a first beautifying effect to a first image acquired by a first camera. The electronic equipment receives first operation of a user on the first interface, and the first operation is used for triggering the electronic equipment to switch to use the second camera and the third camera to acquire images. And the electronic equipment responds to the first operation and displays a second interface, wherein the second interface comprises a second preview image and a third preview image, and the second preview image and the third preview image do not have a beautifying effect added to the preview image corresponding to the rear camera.

Description

Video shooting method and electronic equipment

The present application claims priority of chinese patent application entitled "a method for creating a video for a user based on a story line mode and an electronic device" filed by the national intellectual property office at 16/6/2021 under the application number 2021106709.3, the entire contents of which are incorporated herein by reference.

Technical Field

The application relates to the technical field of terminals, in particular to a video shooting method and electronic equipment.

Background

At present, electronic equipment such as a mobile phone and the like can provide not only a picture shooting function but also a video shooting function. The electronic equipment adopts the video shooting function and can start a camera to record videos.

However, in a scene having a plurality of subjects, such as a multi-person party or parent-child interaction, if the above-described video shooting function is adopted, there is a high possibility that the plurality of subjects cannot be simultaneously framed. Or, in the event of a concert or other activity, there is a need to shoot both a distant view and a close view, and if the above video shooting function is employed, it may not be possible to simultaneously satisfy multiple shooting needs of the user.

Therefore, a video shooting scheme is needed to flexibly adapt to various scenes needing to shoot videos. On the basis, a scheme which can flexibly set the beautifying effect in various shooting scenes is further lacked.

Disclosure of Invention

The embodiment of the application provides a video shooting method and electronic equipment, wherein under the condition that two cameras are adopted to collect images in a switching mode, the beautifying effect is set intelligently, and the beautifying effect of the rear camera is automatically turned off.

In order to achieve the above purpose, the embodiment of the present application adopts the following technical solutions:

in a first aspect, an embodiment of the present application provides a video shooting method, which may be applied to an electronic device such as a mobile phone and a tablet that supports video shooting. The electronic equipment displays a first interface, the first interface is a viewing interface of the video of the electronic equipment, the first interface comprises a first preview image, and the first preview image is obtained by adding a first beautifying effect to a first image acquired by a first camera. The first camera is a front camera or a rear camera. That is, before switching, the electronic device adds a first beauty effect to the image captured by the first camera. It should be noted that the first beauty effect may be set through a beauty control (i.e. a first control) in the viewing interface, or may be automatically set after the application is adopted. And then, the electronic equipment receives a first operation of the user on the first interface, and the first operation is used for triggering the electronic equipment to switch to use the second camera and the third camera to acquire images. That is, the switched shooting mode (i.e., the multi-mirror sub-mode) is a mode in which two cameras are used to capture images. Such as a front and rear dual mirror mode, a rear dual mirror mode, or a picture-in-picture mode. In the mode of adopting two cameras to gather the image, generally can not use rear camera to gather the portrait, consequently does not need the beauty effect. Based on this, in the embodiment of the application, in response to the first operation, the electronic device displays a second interface, where the second interface is a viewing interface recorded by the electronic device, the second interface includes a second preview image and a third preview image, the second preview image is obtained by processing the second image acquired by the second camera, and the third preview image is obtained by processing the second image acquired by the third camera. And the second preview image and the third preview image corresponding to the preview image of the rear camera are not added with a beautifying effect. That is, after switching, the electronic device does not add a beauty effect to the image captured by the rear camera of the two cameras.

In summary, with the method of this embodiment, before the switching, the electronic device adds the first beauty effect to the image collected by the first camera, and after the switching is performed to collect the images by using the two cameras, the beauty effect of the rear camera is turned off. Therefore, the intelligent beauty setting effect can be achieved along with the switching of the shooting modes, and the intelligence and reasonability of the beauty setting are improved.

It should be noted that in this embodiment, the first camera may be the same as the second camera or the third camera, for example, the first camera is a rear main camera, the second camera is a rear main camera, and the third camera is a front camera. Alternatively, the first camera may be different from both the second camera and the third camera, e.g., the first camera is a front camera, the second camera is a rear wide camera, and the third camera is a rear tele camera. This is not particularly limited in the embodiments of the present application.

In another possible design manner of the first aspect, the first interface and the second interface are viewfinder interfaces before the electronic device records, or the first interface and the second interface are viewfinder interfaces during the electronic device records.

That is to say, with the method of this embodiment, the electronic device may set the beauty effect intelligently with the switching of the shooting mode before the video recording or during the video recording. In the method, a user can select a beauty effect only in a viewfinder interface before recording, but the viewfinder interface during recording is not available. Therefore, by adopting the method of the embodiment, the defect that the user cannot select the beautifying effect in the video recording process can be overcome, and the automatic setting of the beautifying effect is realized.

In another possible design of the first aspect, the first interface displays the first preview image full screen.

That is to say, with the method of this embodiment, after the electronic device switches from the mode in which a single camera is used to capture an image, such as the single front mode or the single rear mode, to the mode in which two cameras are used to capture an image, the face beautifying effect of the rear camera can be automatically turned off.

In another possible design manner of the first aspect, the first camera is a front camera, the second camera is a front camera, the third camera is a rear camera, the second preview image is obtained by adding the first beauty effect to the second image, and the third preview image is not added with the beauty effect.

That is to say, with the method of this embodiment, after the electronic device is switched from the mode (e.g. single front mode) of acquiring an image with one front camera to the mode (e.g. front-back double mirror mode, picture-in-picture mode) of acquiring an image with one front camera and one rear camera, the front camera after switching still continues to use the first beautifying effect of the front camera before switching, and the rear camera after switching closes the beautifying effect. Therefore, the beautifying effect can be added to the front camera only after the mode that one front camera and one rear camera are adopted to collect images is switched from the mode that one front camera is adopted to collect images to the mode that one front camera and one rear camera are adopted to collect images.

In another possible design manner of the first aspect, the first camera is a rear camera, the second camera is a front camera, the third camera is a rear camera, and neither the second preview image nor the third preview image has a beauty effect added thereto.

That is, with the method of this embodiment, after the electronic device is switched from the mode in which one rear camera is used to capture an image (e.g., single rear mode) to the mode in which one front camera and one rear camera are used to capture an image (e.g., front-back dual-mirror mode, picture-in-picture mode), the switched front camera does not continue to use the first beauty effect. And simultaneously, closing the beauty effect of the switched rear camera. Therefore, after the mode of collecting images by adopting one rear camera is switched to the mode of collecting images by adopting one front camera and one rear camera, the beauty effects of the front camera and the rear camera are simultaneously closed. Wherein, close the beautiful face of leading camera, can avoid switching the beautiful face effect of leading camera before, the image of unmatched leading camera collection after switching. And the beautifying effect of the rear camera is closed, so that the beautifying effect of the rear camera can be prevented from being opened in a mode of acquiring images by adopting a front camera and a rear camera. Finally, the rationality of the beauty setting can be improved.

In another possible design manner of the first aspect, the first interface and the second interface are viewfinder interfaces before the electronic device records. The first interface comprises a first control, and the first control in the first interface is used for triggering the electronic equipment to set the beautifying effect of the first image. The second interface comprises a first control, and the first control in the second interface is used for triggering the electronic equipment to set the beautifying effect of the second image.

That is to say, with the method of this embodiment, before recording, the electronic device may provide a beauty control in the viewing interface in the mode in which the single camera captures the image, so as to trigger the electronic device to set the beauty effect of the image captured by the single camera. Before recording, the electronic equipment can provide a beauty control in a viewing interface in a mode of collecting images by adopting a front camera and a rear camera so as to trigger the electronic equipment to set the beauty effect of the images collected by the front camera.

In another possible design manner of the first aspect, the second camera is a rear camera, the third camera is a rear camera, and neither the second preview image nor the third preview image has a beauty effect added thereto.

That is to say, with the method of this embodiment, the mode in which the electronic device acquires images with one camera, such as the single front mode or the single rear mode, is switched to the mode in which the electronic device acquires images with two rear cameras, such as the rear-rear dual-mirror mode, and then the beauty effect is not added to the images acquired with the two rear cameras.

In another possible design manner of the first aspect, the first interface and the second interface are viewfinder interfaces before the electronic device records. The first interface comprises a first control, and the second interface does not comprise the first control; the first control is used for triggering the electronic equipment to set the beautifying effect.

That is to say, with the method of this embodiment, because in the mode of acquiring images with two rear cameras, both rear cameras are unsupported for beauty, in this embodiment, before recording, in the viewing interface of the mode of acquiring images with two rear cameras, the electronic device does not provide a beauty control. Thereby being suitable for the situation that the two rear cameras do not support beauty.

In another possible design manner of the first aspect, after the electronic device displays the second interface, the method further includes: and the electronic equipment receives a second operation of the user on the second interface, and the second operation is used for triggering the electronic equipment to switch to use the fourth camera to acquire the image. And the electronic equipment responds to the second operation and displays a third interface, a fourth preview image is displayed in the third interface in a full screen mode, and the fourth preview image is obtained after a first beautifying effect is added to a fourth image acquired by a fourth camera.

That is, with the method of this embodiment, after switching from the mode in which images are captured by using a single camera to the mode in which images are captured by using two cameras, and switching back again from the mode in which images are captured by using two cameras to the mode in which images are captured by using a single camera, the original beauty effect of the single camera can be recovered. Therefore, the beautifying effect can be quickly recovered after the mode of collecting images by adopting a single camera is switched back.

It should be noted that the fourth camera may be the same as the first camera, e.g., both the first and fourth cameras are rear-facing main cameras. Alternatively, the fourth camera may be different from the first camera, for example, the first camera is a front camera and the fourth camera is a rear main camera.

In another possible design of the first aspect, the first camera is a front camera, and the second camera and the third camera are rear cameras. The first interface further comprises a fifth preview image, the fifth preview image is obtained by processing a fifth image acquired by a fifth camera, the fifth camera is a rear camera, and the fifth preview image is not added with a beautifying effect.

That is to say, with the method of this embodiment, the mode in which the electronic device acquires images with one front-facing camera and one rear-facing camera, such as a front-rear double-mirror mode and a picture-in-picture mode, is switched to the mode in which the electronic device acquires images with two rear-facing cameras, and after the rear-rear double-mirror mode, no beauty effect is added to the images acquired with the two rear-facing cameras.

It should be noted that, similar to the first camera, the fifth camera may be the same as the second camera or the third camera, or alternatively, the fifth camera

In another possible design manner of the first aspect, the first interface and the second interface are viewfinder interfaces before the electronic device records. The first interface comprises a first control, and the second interface does not comprise the first control. The first control is used for triggering the electronic equipment to set the beautifying effect.

That is to say, with the method of this embodiment, because in the mode of acquiring images with two rear cameras, both the rear cameras are unsupported for beauty, in this embodiment, before recording, in the viewing interface of the mode of acquiring images with two rear cameras, the electronic device does not provide a beauty control. Thereby being suitable for the situation that the two rear cameras do not support beauty.

In another possible design manner of the first aspect, after the electronic device displays the second interface, the method further includes: and the electronic equipment receives a third operation of the user on the second interface, wherein the third operation is used for triggering the electronic equipment to switch to use the sixth camera and the seventh camera to acquire images. The sixth camera is a front camera and the seventh camera is a rear camera. And the electronic equipment responds to the third operation and displays a fourth interface, the fourth interface comprises a sixth preview image and a seventh preview image, the sixth preview image is obtained by adding a first beautifying effect to the sixth image acquired by the sixth camera, the seventh preview image is obtained by processing the seventh image acquired by the seventh camera, and the seventh preview image is not added with the beautifying effect.

That is to say, with the method of this embodiment, after switching from the mode of acquiring images with one front camera and one rear camera to the mode of acquiring images with two rear cameras, and then switching back to the mode of acquiring images with one front camera and one rear camera, the beauty effect when images are acquired with one front camera and one rear camera can be restored. Therefore, the beauty effect can be quickly recovered after the mode that one front camera and one rear camera are used for collecting images is switched back.

It should be noted that the sixth camera may be the same as the first camera or the fifth camera, or the sixth camera may be different from both the first camera and the fifth camera. The seventh camera may be the same as the first camera or the fifth camera, or the seventh camera may be different from both the first camera and the fifth camera.

In another possible design manner of the first aspect, the second interface includes first prompt information, and the first prompt information is used to prompt that, when two cameras are used to collect images, all images collected by a rear camera do not support beauty.

That is, with the method of the present embodiment, it is possible to display a prompt message of the reason why beauty is not set without automatically setting a beauty effect for the rear camera. Therefore, the experience of man-machine interaction can be improved.

In a second aspect, the present application provides a video shooting method, which may be applied to an electronic device such as a mobile phone and a tablet that supports video shooting. The electronic equipment displays a first interface, the first interface is a viewing interface of the video of the electronic equipment, the first interface comprises a first preview image displayed in a full screen mode, and the first preview image is obtained by adding a first beautifying effect to a first image collected by a first camera. The first camera is a rear camera. That is, the first interface is a viewfinder interface for recording in a single-mode post-processing mode. And the first interface also comprises a first control which can be a mode icon or a panel display control. The first control is used for triggering the electronic equipment to switch a recording mode, and the recording mode comprises: a single camera is adopted to collect images and the images are displayed in a full screen mode, such as a single front mode or a single rear mode; a front camera and a rear camera are adopted to collect images, and the images are displayed in a split screen mode, such as a front-back double-lens mode; and acquiring images by adopting a front camera and a rear camera, and displaying in a picture-in-picture mode, such as a picture-in-picture mode. The electronic equipment receives click operation of a user on a first control in a first interface. The electronic equipment responds to the click operation, and displays a plurality of options in the first interface, wherein the options correspond to the plurality of recording modes one to one. I.e. a recording mode is provided for the user to select. The method comprises the steps that the electronic equipment receives selection operation of a user on a first option, the first option is one of a plurality of options, the first option correspondingly adopts a front camera and a rear camera to collect images, and the images are displayed in a split-screen mode; or, the first option correspondingly adopts a front camera and a rear camera to acquire images and displays the images in a picture-in-picture mode. And the electronic equipment responds to the selection operation and displays a second interface, the second interface is a viewing interface of the video of the electronic equipment, the second interface comprises a second preview image and a third preview image, the second preview image is obtained after processing the second image acquired by the second camera and adding no beauty effect, and the third preview image is obtained after processing the third image acquired by the third camera and adding no beauty effect.

In summary, with the method of the embodiment of the present application, under the condition that a single rear camera is used to collect an image and the full-screen mode is used for recording, if a first beauty effect is added to the image collected by the rear camera, after the front camera and the rear camera are switched to collect the image, for example, after the front-back double-lens mode or the picture-in-picture mode is switched, on one hand, the beauty effect of the rear camera in the scene where two cameras are used to collect the image is automatically cancelled; on the other hand, in order to avoid the beauty effect of a single front rear camera to be switched, the beauty effect of the front camera is automatically cancelled when the beauty effect of the single front camera to be switched is applied to the image collected by the front camera in the two cameras after being switched. That is, the electronic device does not add a beauty effect to the images captured by the switched front camera and rear camera. Thereby can promote the rationality that the beautiful face effect sets up automatically.

In another possible design manner of the second aspect, the first interface and the second interface are viewfinder interfaces before the electronic device records, or the first interface and the second interface are viewfinder interfaces during the electronic device records.

That is to say, with the method of this embodiment, the electronic device may set the beauty effect intelligently with the switching of the shooting mode before the video recording or during the video recording. The electronic device generally provides a beauty control only in the viewing interface before recording for the user to select a beauty effect, but the viewing interface during recording is not usually available. Therefore, by adopting the method of the embodiment, the defect that the user cannot select the beautifying effect in the video recording process can be overcome, and the automatic setting of the beautifying effect is realized.

In another possible design manner of the second aspect, the second interface includes first prompt information, and the first prompt information is used to prompt that, in a case where two cameras are used to collect images, all images collected by a rear camera do not support beauty.

That is, with the method of the present embodiment, it is possible to display a prompt message of the reason why beauty is not set without automatically setting a beauty effect for the rear camera. Therefore, the experience of human-computer interaction can be improved.

In another possible design manner of the second aspect, after switching to the mode in which one front camera and one rear camera are used to capture images, the electronic device may further switch to the mode in which a single camera is used to capture images. And the second interface comprises a first control. After displaying the second interface, the electronic device may receive a user's click operation on a first control in the second interface. The electronic equipment responds to the clicking operation and displays a plurality of options in the second interface. The electronic equipment receives the selection operation of a user on a second option, wherein the second option is one of a plurality of options, and the second option correspondingly adopts a single camera to collect images and is displayed in a full screen mode. And the electronic equipment responds to the selection operation and displays a third interface, the third interface is a viewing interface of the video of the electronic equipment, the third interface comprises a fourth preview image displayed in a full screen mode, and the fourth preview image is obtained by adding a first beautifying effect to a fourth image acquired by a fourth camera. The fourth camera is a rear camera or a front camera.

That is to say, with the method of this embodiment, the electronic device may continue to switch to the single front-facing mode or the single rear-facing mode after switching from the single rear-facing mode to the mode in which one front-facing camera and one rear-facing camera capture images and canceling the beauty effect. After the mode is switched to the single front mode or the single rear mode, the beautifying effect of the single rear mode can be recovered. Therefore, the beauty effect when a single camera is used for collecting images can be automatically recovered, and the intelligence of the beauty setting is improved.

In another possible embodiment of the second aspect, the fourth camera is a front camera. Namely, the mode of acquiring images by adopting one front camera and one rear camera is switched to the single front mode. After that, the electronic equipment can be further switched to a mode of acquiring images by adopting a front camera and a rear camera. The third interface further comprises a first control. After the third interface is displayed, the electronic equipment receives click operation of a user on a first control in the third interface. The electronic device displays a plurality of options in the third interface in response to the clicking operation. The electronic equipment receives the selection operation of a user on a third option, and the third option correspondingly adopts a front camera and a rear camera to acquire images and adopts a split-screen display mode, such as a front-back double-mirror mode; or, the first option correspondingly adopts a front camera and a rear camera to collect images and adopts a picture-in-picture display mode, such as a picture-in-picture mode. And the electronic equipment responds to the selection operation and displays a fourth interface, wherein the fourth interface is a viewing interface of the video of the electronic equipment, and the fourth interface comprises a fifth preview image and a sixth preview image. The fifth preview image is obtained by adding a first beautifying effect to a fifth image acquired by a fifth camera, and the fifth camera is a front camera. The sixth preview image is obtained by processing a fifth image acquired by a sixth camera without adding a beautifying effect, and the sixth camera is a rear camera.

That is to say, with the method of this embodiment, the electronic device switches to the single-front mode from a scene in which one front camera and one rear camera are used to collect images and no beauty effect is added, and after the beauty effect is recovered, the electronic device can switch to the mode in which one front camera and one rear camera are used to collect images again. Moreover, the image collected by the front camera after switching can continue to use the beautifying effect of the single front camera before switching. Thereby can be intelligent for adopting under the mode of a leading camera and a rear camera collection image, the beautiful face effect of image addition of leading camera collection promotes the intellectuality that beautiful face set up.

In another possible design manner of the second aspect, the recording mode further includes a mode of acquiring images by using two rear cameras and displaying the images in a split screen manner, such as a rear double mirror mode. After the mode that adopts a leading camera and a rear camera to gather the image is being switched into to the image that wherein leading camera was gathered adds the beautiful face effect, electronic equipment can continue to switch into and adopt two rear cameras to gather the image, and with the mode of split screen display. The fourth interface further comprises a first control. After the fourth interface is displayed, the electronic equipment receives click operation of a user on a first control in the fourth interface. The electronic equipment responds to the click operation and displays a plurality of options in the fourth interface. The electronic equipment receives the selection operation of a user on a fourth option, the fourth option is one of the options, and the fourth option correspondingly adopts two rear cameras to collect images and adopts a split-screen display mode. And the electronic equipment responds to the selection operation and displays a fifth interface, wherein the fifth interface is a viewing interface of the video of the electronic equipment, and the fifth interface comprises a seventh preview image and an eighth preview image. And the seventh preview image is obtained after the seventh image acquired by the seventh camera is processed and the beautifying effect is not added. The eighth preview image is obtained by processing the eighth image collected by the eighth camera without adding a beauty effect. The seventh camera and the eighth camera are rear cameras.

That is to say, with the method of this embodiment, after the electronic device switches from the single front mode to the mode in which one front camera and one rear camera are used to capture images, and the image captured by the switched front camera continues to be switched to the mode in which two rear cameras are used to capture images after the image captured by the switched front camera continues to be switched to the beauty effect of the front single front camera, the beauty effect of the images captured by the two rear cameras is automatically cancelled. Thereby improving the reasonability of beauty setting.

In another possible design manner of the second aspect, the recording mode further includes a mode of acquiring images by using two rear cameras and displaying the images in a split screen manner, such as a rear double mirror mode. After switching to the mode that a single camera collects images and restoring the beautifying effect, the electronic equipment can be continuously switched to the mode that two rear cameras collect images. The third interface further comprises a first control. After the third interface is displayed, the electronic equipment receives click operation of a user on a first control in the third interface. The electronic device displays a plurality of options in the third interface in response to the clicking operation. The electronic equipment receives the selection operation of a user on a fourth option, the fourth option is one of the options, and the fourth option correspondingly adopts two rear cameras to collect images and adopts a split-screen display mode. And the electronic equipment responds to the selection operation and displays a sixth interface, wherein the sixth interface is a viewing interface of the video of the electronic equipment and comprises a ninth preview image and a tenth preview image. The ninth preview image is obtained by processing a ninth image acquired by the ninth camera without adding a beautifying effect; the tenth preview image is obtained by processing the tenth image collected by the tenth camera without adding a beauty effect. The ninth camera and the tenth camera are rear cameras.

That is to say, with the method of this embodiment, after the electronic device is switched from the single front mode or the single rear mode to the mode in which two rear cameras are used to capture images, the beauty effect of the images captured by the two rear cameras is automatically cancelled. Thereby improving the reasonability of beauty setting.

In a third aspect, an embodiment of the present application further provides an electronic device, which includes a display screen, a memory, and one or more processors. The display screen, the memory, and the processor are coupled. The memory for storing computer program code comprising computer instructions which, when executed by the processor, cause the electronic device to perform the steps of: the electronic equipment displays a first interface, the first interface is a viewing interface of the electronic equipment video, the first interface comprises a first preview image, and the first preview image is obtained by adding a first beautifying effect to a first image acquired by a first camera. The first camera is a front camera or a rear camera. The electronic equipment receives a first operation of a user on the first interface, wherein the first operation is used for triggering the electronic equipment to switch to use a second camera and a third camera to collect images. And the electronic equipment responds to the first operation and displays a second interface, wherein the second interface is a viewing interface recorded by the electronic equipment, the second interface comprises a second preview image and a third preview image, the second preview image is obtained by processing a second image acquired by the second camera, and the third preview image is obtained by processing a second image acquired by the third camera. And adding no beautifying effect to the preview image corresponding to the rear camera in the second preview image and the third preview image.

In another possible design manner of the third aspect, the first interface and the second interface are viewfinder interfaces before the electronic device records, or the first interface and the second interface are viewfinder interfaces during the electronic device records.

In another possible design manner of the third aspect, the first interface displays the first preview image in a full screen.

In another possible design manner of the third aspect, the first camera is a front camera, the second camera is a front camera, the third camera is a rear camera, the second preview image is obtained by adding the first beauty effect to the second image, and the third preview image is not added with the beauty effect.

In another possible design manner of the third aspect, the first camera is a rear camera, the second camera is a front camera, the third camera is a rear camera, and neither the second preview image nor the third preview image has a beauty effect added thereto.

In another possible design manner of the third aspect, the first interface and the second interface are viewing interfaces before the electronic device records. The first interface comprises a first control, and the first control in the first interface is used for triggering the electronic equipment to set the beautifying effect of the first image. The second interface comprises the first control, and the first control in the second interface is used for triggering the electronic equipment to set the beautifying effect of the second image.

In another possible design manner of the third aspect, the second camera is a rear camera, the third camera is a rear camera, and neither the second preview image nor the third preview image is added with a beauty effect.

In another possible design manner of the third aspect, the first interface and the second interface are viewing interfaces before the electronic device records. The first interface includes a first control, and the second interface does not include the first control; the first control is used for triggering the electronic equipment to set a beautifying effect.

In another possible design of the third aspect, the computer instructions, when executed by the processor, cause the electronic device to further perform the following steps: and the electronic equipment receives a second operation of the user on the second interface, wherein the second operation is used for triggering the electronic equipment to switch to use a fourth camera to acquire an image. And the electronic equipment responds to the second operation and displays a third interface, a fourth preview image is displayed in the third interface in a full screen mode, and the fourth preview image is obtained after the first beautifying effect is added to a fourth image acquired by a fourth camera.

In another possible design manner of the third aspect, the first camera is a front camera, and the second camera and the third camera are rear cameras. The first interface further comprises a fifth preview image, the fifth preview image is obtained by processing a fifth image acquired by a fifth camera, the fifth camera is a rear camera, and the fifth preview image is not added with a beautifying effect.

In another possible design manner of the third aspect, the first interface and the second interface are viewing interfaces before the electronic device records. The first interface comprises a first control, and the second interface does not comprise the first control; the first control is used for triggering the electronic equipment to set the beautifying effect.

In another possible design of the third aspect, the computer instructions, when executed by the processor, cause the electronic device to further perform the following steps: the electronic equipment receives a third operation of the user on the second interface, wherein the third operation is used for triggering the electronic equipment to switch to use a sixth camera and a seventh camera to acquire images; the sixth camera is a front camera, and the seventh camera is a rear camera. And the electronic equipment responds to the third operation and displays a fourth interface, the fourth interface comprises a sixth preview image and a seventh preview image, the sixth preview image is obtained by adding the first beautifying effect to the sixth image acquired by the sixth camera, the seventh preview image is obtained by processing a seventh image acquired by the seventh camera, and the seventh preview image is not added with the beautifying effect.

In another possible design manner of the third aspect, the second interface includes first prompt information, and the first prompt information is used to prompt that, in a case where two cameras are used to collect images, all images collected by a rear camera do not support beauty.

In a fourth aspect, embodiments of the present application further provide an electronic device, which includes a display screen, a memory, and one or more processors. The display screen, the memory, and the processor are coupled. The memory for storing computer program code comprising computer instructions that, when executed by the processor, cause the electronic device to perform the steps of: the electronic equipment displays a first interface, wherein the first interface is a viewing interface of the video of the electronic equipment, the first interface comprises a first preview image displayed in a full screen mode, and the first preview image is obtained by adding a first beautifying effect to a first image acquired by a first camera. The first camera is a rear camera; the first interface further includes a first control, the first control is used for triggering the electronic device to switch a recording mode, and the recording mode includes: a single camera is adopted to collect images and the images are displayed in a full screen mode; a front camera and a rear camera are adopted to collect images, and a split screen display mode is adopted; and adopting a front camera and a rear camera to collect images and displaying in a picture-in-picture mode. And the electronic equipment receives click operation of a user on the first control in the first interface. And the electronic equipment responds to the click operation, and displays a plurality of options in the first interface, wherein the options correspond to a plurality of recording modes one to one. The electronic equipment receives selection operation of a user on a first option, wherein the first option is one of the options, and the first option correspondingly adopts a front camera and a rear camera to acquire images and displays the images in a split-screen mode; or, the first option correspondingly adopts a front camera and a rear camera to acquire images and adopts a picture-in-picture display mode. And the electronic equipment responds to the selection operation, a second interface is displayed, the second interface is a viewing interface of the video of the electronic equipment, the second interface comprises a second preview image and a third preview image, the second preview image is obtained after the second image acquired by the second camera is processed and the beautifying effect is not added, and the third preview image is obtained after the third image acquired by the third camera is processed and the beautifying effect is not added.

In another possible design manner of the fourth aspect, the first interface and the second interface are viewfinder interfaces before the electronic device records, or the first interface and the second interface are viewfinder interfaces during the electronic device records.

In another possible design manner of the fourth aspect, the second interface includes first prompt information, and the first prompt information is used to prompt that, in a case where two cameras are used to collect images, all images collected by a rear camera do not support beauty.

In another possible design manner of the fourth aspect, the first control is included in the second interface. The computer instructions, when executed by the processor, cause the electronic device to further perform the steps of: and the electronic equipment receives the clicking operation of the user on the first control in the second interface. The electronic equipment responds to the clicking operation and displays the multiple options in the second interface. And the electronic equipment receives the selection operation of a user on a second option, wherein the second option is one of the multiple options, and the second option correspondingly adopts a single camera to collect an image and is displayed in a full screen mode. The electronic equipment responds to the selection operation, a third interface is displayed, the third interface is a viewing interface of the video of the electronic equipment, the third interface comprises a fourth preview image displayed in a full screen mode, and the fourth preview image is obtained after the first beautifying effect is added to a fourth image acquired by a fourth camera; the fourth camera is a rear camera or a front camera.

In another possible design manner of the fourth aspect, the fourth camera is a front camera, and the third interface further includes a first control. The computer instructions, when executed by the processor, cause the electronic device to further perform the steps of: and the electronic equipment receives the clicking operation of the user on the first control in the third interface. The electronic equipment responds to the click operation and displays the multiple options in the third interface. The electronic equipment receives a selection operation of a user on the third option; the third option correspondingly adopts a front camera and a rear camera to acquire images and displays the images in a split screen mode; or, the first option correspondingly adopts a front camera and a rear camera to acquire images and displays the images in a picture-in-picture mode. The electronic equipment responds to the selection operation and displays a fourth interface, the fourth interface is a viewing interface of the video of the electronic equipment, and the fourth interface comprises a fifth preview image and a sixth preview image; the fifth preview image is obtained by adding the first beautifying effect to a fifth image acquired by a fifth camera, and the fifth camera is a front camera; the sixth preview image is obtained by processing a fifth image acquired by a sixth camera without adding a beautifying effect, and the sixth camera is a rear camera.

In another possible design manner of the fourth aspect, the recording mode further includes a mode of acquiring images by using two rear cameras and displaying the images in a split screen manner; the fourth interface further comprises a first control. The computer instructions, when executed by the processor, cause the electronic device to further perform the steps of: and the electronic equipment receives the clicking operation of the user on the first control in the fourth interface. The electronic equipment responds to the click operation and displays the multiple options in the fourth interface. And the electronic equipment receives the selection operation of the user on a fourth option, wherein the fourth option is one of the options, and the fourth option correspondingly adopts two rear cameras to acquire images and displays the images in a split screen mode. The electronic equipment responds to the selection operation and displays a fifth interface, the fifth interface is a view-finding interface of the video of the electronic equipment, and the fifth interface comprises a seventh preview image and an eighth preview image; the seventh preview image is obtained by processing a seventh image acquired by a seventh camera without adding a beautifying effect; the eighth preview image is obtained by processing an eighth image acquired by an eighth camera without adding a beautifying effect; the seventh camera and the eighth camera are rear cameras.

In another possible design manner of the fourth aspect, the recording mode further includes a mode of acquiring images by using two rear cameras and displaying the images in a split screen manner; the third interface further comprises a first control. The computer instructions, when executed by the processor, cause the electronic device to further perform the steps of: and the electronic equipment receives click operation of a user on the first control in the third interface. The electronic equipment responds to the click operation and displays the multiple options in the third interface. And the electronic equipment receives the selection operation of the user on a fourth option, wherein the fourth option is one of the options, and the fourth option correspondingly adopts two rear cameras to acquire images and displays the images in a split screen mode. The electronic equipment responds to the selection operation and displays a sixth interface, wherein the sixth interface is a view interface of the video of the electronic equipment and comprises a ninth preview image and a tenth preview image; the ninth preview image is obtained by processing a ninth image acquired by a ninth camera without adding a beautifying effect; the tenth preview image is obtained by processing a tenth image acquired by a tenth camera without adding a beautifying effect; the ninth camera and the tenth camera are rear cameras.

In a fifth aspect, an embodiment of the present application provides a chip system, where the chip system is applied to an electronic device including a display screen and a memory; the chip system includes one or more interface circuits and one or more processors; the interface circuit and the processor are interconnected through a line; the interface circuit is to receive a signal from a memory of the electronic device and to send the signal to the processor, the signal comprising computer instructions stored in the memory; when the processor executes the computer instructions, the electronic device performs the method according to the first aspect, the second aspect, and any possible design thereof.

In a sixth aspect, the present application provides a computer storage medium comprising computer instructions which, when run on an electronic device, cause the electronic device to perform the method according to the first aspect, the second aspect and any one of the possible design forms thereof.

In a seventh aspect, the present application provides a computer program product for, when running on a computer, causing the computer to perform the method according to the first aspect, the second aspect and any possible design thereof.

It should be understood that beneficial effects that can be achieved by the electronic device according to the third aspect and the electronic device according to the fourth aspect, the chip system according to the fifth aspect, the computer storage medium according to the sixth aspect, and the computer program product according to the seventh aspect may refer to the beneficial effects of the first aspect, the second aspect, and any possible design manner thereof, and are not repeated herein.

Drawings

Fig. 1 is a schematic diagram of a hardware structure of a mobile phone according to an embodiment of the present disclosure;

fig. 2A is a schematic diagram of a mobile phone interface provided in an embodiment of the present application;

fig. 2B is a second schematic diagram of a mobile phone interface provided in the embodiment of the present application;

fig. 2C is a third schematic view of a mobile phone interface provided in the embodiment of the present application;

fig. 2D is a fourth schematic view of a mobile phone interface provided in the embodiment of the present application;

fig. 2E is a fifth schematic view of a mobile phone interface provided in the embodiment of the present application;

fig. 2F is a sixth schematic view of a mobile phone interface provided in the embodiment of the present application;

fig. 3A is a flowchart of a video shooting method according to an embodiment of the present disclosure;

fig. 3B is a seventh schematic diagram of a mobile phone interface provided in the embodiment of the present application;

fig. 3C is a second flowchart of a video shooting method according to an embodiment of the present disclosure;

fig. 4 is an eighth schematic view of a mobile phone interface provided in the embodiment of the present application;

fig. 5 is a schematic diagram of a video file according to an embodiment of the present application;

fig. 6A is a tenth schematic diagram of a mobile phone interface provided in the embodiment of the present application;

fig. 6B is an eleventh schematic view of a mobile phone interface provided in the embodiment of the present application;

fig. 6C is a third flowchart of a video shooting method according to the embodiment of the present application;

fig. 6D is a twelfth schematic view of a mobile phone interface provided in the embodiment of the present application;

fig. 6E is a thirteen schematic diagrams of a mobile phone interface provided in the embodiment of the present application;

fig. 6F is a fourteenth schematic diagram of a mobile phone interface according to an embodiment of the present application;

fig. 6G is a fourth flowchart of a video shooting method according to an embodiment of the present application;

fig. 6H is a fifteen-schematic diagram of a mobile phone interface provided by the embodiment of the present application;

fig. 7 is a schematic structural diagram of a chip system according to an embodiment of the present disclosure.

Detailed Description

In the following, the terms "first", "second" are used for descriptive purposes only and are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present embodiment, the meaning of "a plurality" is two or more unless otherwise specified.

Embodiments of the present embodiment will be described in detail below with reference to the accompanying drawings.

The video shooting method provided by the embodiment of the application can be applied to electronic equipment supporting the camera function. The electronic device may be, for example, a mobile phone, a tablet computer, a desktop computer, a laptop computer, a handheld computer, a notebook computer, an ultra-mobile personal computer (UMPC), a netbook, a cellular phone, a Personal Digital Assistant (PDA), an Augmented Reality (AR) \ Virtual Reality (VR) device, and the like, and the embodiment of the present application is not limited to a specific form of the device.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure. As shown in fig. 1, taking the electronic device as a mobile phone 100 as an example, the mobile phone 100 may include a processor 110, an external memory interface 120, an internal memory 121, a Universal Serial Bus (USB) interface 130, a charging management module 140, a power management module 141, a battery 142, an antenna 1, an antenna 2, a mobile communication module 150, a wireless communication module 160, an audio module 170, a speaker 170A, a receiver 170B, a microphone 170C, an earphone interface 170D, a sensor module 180, a button 190, a motor 191, an indicator 192, a camera 193, a display 194, a Subscriber Identity Module (SIM) card interface 195, and the like.

It is to be understood that the illustrated structure of the present embodiment does not specifically limit the mobile phone 100. In other embodiments, the handset 100 may include more or fewer components than shown, or combine certain components, or split certain components, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

Processor 110 may include one or more processing units, such as: the processor 110 may include an Application Processor (AP), a modem processor, a Graphics Processing Unit (GPU), an Image Signal Processor (ISP), a controller, a memory, a video codec, a Digital Signal Processor (DSP), a baseband processor, and/or a neural-Network Processing Unit (NPU), etc. The different processing units may be separate devices or may be integrated into one or more processors.

The controller may be the neural center and the command center of the handset 100. The controller can generate an operation control signal according to the instruction operation code and the timing signal to complete the control of instruction fetching and instruction execution.

A memory may also be provided in processor 110 for storing instructions and data. In some embodiments, the memory in the processor 110 is a cache memory. The memory may hold instructions or data that have just been used or recycled by the processor 110. If the processor 110 needs to reuse the instruction or data, it can be called directly from the memory. Avoiding repeated accesses reduces the latency of the processor 110, thereby increasing the efficiency of the system.

The charging management module 140 is configured to receive charging input from a charger. The charger may be a wireless charger or a wired charger. In some wired charging embodiments, the charging management module 140 may receive charging input from a wired charger via the USB interface 130. In some wireless charging embodiments, the charging management module 140 may receive a wireless charging input through a wireless charging coil of the cell phone 100. The charging management module 140 can also supply power to the mobile phone through the power management module 141 while charging the battery 142.

The power management module 141 is used to connect the battery 142, the charging management module 140 and the processor 110. The power management module 141 receives input from the battery 142 and/or the charge management module 140 and provides power to the processor 110, the internal memory 121, the external memory, the display 194, the camera 193, the wireless communication module 160, and the like. The power management module 141 may also be used to monitor parameters such as battery capacity, battery cycle count, battery state of health (leakage, impedance), etc. In other embodiments, the power management module 141 may be disposed in the processor 110. In other embodiments, the power management module 141 and the charging management module 140 may be disposed in the same device.

The wireless communication function of the mobile phone 100 can be realized by the antenna 1, the antenna 2, the mobile communication module 150, the wireless communication module 160, the modem processor, the baseband processor, and the like.

The mobile phone 100 implements display functions through the GPU, the display screen 194, and the application processor. The GPU is a microprocessor for image processing, and is connected to the display screen 194 and an application processor. The GPU is used to perform mathematical and geometric calculations for graphics rendering. The processor 110 may include one or more GPUs that execute program instructions to generate or alter display information.

The display screen 194 is used to display images, video, and the like. The display screen 194 is a foldable screen as described above (e.g., a flexible foldable screen or a multi-screen foldable screen). The display screen 194 includes a display panel. The display panel may adopt a Liquid Crystal Display (LCD), an organic light-emitting diode (OLED), an active-matrix organic light-emitting diode (active-matrix organic light-emitting diode, AMOLED), a flexible light-emitting diode (FLED), a miniature, a Micro-oeld, a quantum dot light-emitting diode (QLED), and the like.

The mobile phone 100 may implement a shooting function through the ISP, the camera 193, the video codec, the GPU, the display 194, and the APP processor.

The external memory interface 120 may be used to connect an external memory card, such as a Micro SD card, to extend the storage capability of the mobile phone 100. The external memory card communicates with the processor 110 through the external memory interface 120 to implement a data storage function. For example, media files such as music, video, etc. are saved in an external memory card.

The internal memory 121 may be used to store computer-executable program code, which includes instructions. The processor 110 executes instructions stored in the internal memory 121, so as to perform various functions APP and data processing of the mobile phone 100. The internal memory 121 may include a program storage area and a data storage area. The storage program area may store an operating system, an application program (such as a sound playing function, an image playing function, etc.) required by at least one function, and the like. The data storage area may store data (e.g., audio data, a phonebook, etc.) created during use of the handset 100, and the like. In addition, the internal memory 121 may include a high speed random access memory, and may also include a non-volatile memory, such as at least one magnetic disk storage device, a flash memory device, a Universal Flash Storage (UFS), and the like.

The mobile phone 100 can implement audio functions through the audio module 170, the speaker 170A, the receiver 170B, the microphone 170C, the earphone interface 170D, and the application processor. Such as music playing, recording, etc.

The keys 190 include a power-on key, a volume key, and the like. The keys 190 may be mechanical keys. Or may be touch keys. The cellular phone 100 may receive a key input, and generate a key signal input related to user setting and function control of the cellular phone 100.

The motor 191 may generate a vibration cue. The motor 191 may be used for incoming call vibration cues, as well as for touch vibration feedback. For example, touch operations applied to different applications (e.g., photographing, audio playing, etc.) may correspond to different vibration feedback effects. The motor 191 may also respond to different vibration feedback effects for touch operations applied to different areas of the display screen 194. Different application scenes (such as time reminding, receiving information, alarm clock, game and the like) can also correspond to different vibration feedback effects. The touch vibration feedback effect may also support customization.

Indicator 192 may be an indicator light that may be used to indicate a state of charge, a change in charge, or a message, missed call, notification, etc.

The SIM card interface 195 is used to connect a SIM card. The SIM card can be attached to and detached from the cellular phone 100 by being inserted into the SIM card interface 195 or being pulled out from the SIM card interface 195. The handset 100 may support 1 or N SIM card interfaces, N being a positive integer greater than 1. The SIM card interface 195 may support a Nano SIM card, a Micro SIM card, a SIM card, etc. The same SIM card interface 195 can be inserted with multiple cards at the same time. The types of the plurality of cards may be the same or different. The SIM card interface 195 may also be compatible with different types of SIM cards. The SIM card interface 195 is also compatible with external memory cards. The mobile phone 100 interacts with the network through the SIM card to implement functions such as communication and data communication. In some embodiments, the handset 100 employs esims, namely: an embedded SIM card. The eSIM card can be embedded in the mobile phone 100 and cannot be separated from the mobile phone 100.

The video shooting method in the following embodiments can be implemented in the mobile phone 100 having the above-described hardware structure.

The video shooting method provided by the embodiment of the application can be applied to various scenes needing to shoot videos in the mobile phone 100, such as scenes of wedding scenes, friend gathering, traveling and the like. In recent years, with the development of video platforms, various new video formats have appeared, and a typical format is a video log (vlog), and the vlog is a format in which video replaces characters or photos to carry the contents of the log. In the process of photographing the vlog, it is generally necessary to photograph a plurality of objects, for example, the user himself and the environment in which the user is present. Alternatively, it is desirable to photograph the same object with different views, for example, to photograph the same stage scene with a close-up view and a distant view.

However, it is often difficult to satisfy the demand in the above-described novel video form, subject to the limitation of the video photographing function in the conventional art.

Based on this, the embodiment of the present application provides a video shooting method, which is implemented based on a new video shooting function. The video shooting function may also be referred to as a multi-lens recording mode, and the multi-lens recording mode and a plurality of common shooting modes such as an aperture, a night scene, a portrait, a photograph, and a video recording mode constitute a plurality of shooting modes of the camera function. Moreover, in the multi-lens video recording mode, the mobile phone 100 may simultaneously turn on at least two cameras to acquire preview images and simultaneously display the preview images acquired by the at least two cameras in the viewing interface.

Illustratively, the view interface 201a of the camera application shown in fig. 2A includes a sub-menu 202A, where the sub-menu 202A includes not only a plurality of common shooting modes, such as aperture, night scene, portrait, photograph, and video recording, but also a multi-lens video recording mode. Then, the user selects the multi-mirror video mode, and the mobile phone 100 may be triggered to start the multi-mirror video. For example, in response to a user selection operation of the multi-mirror recording mode, the mobile phone may display the finder interface 203 shown in (b) of fig. 2A. The viewing interface 203a includes a preview image 204a captured by a camera a and a preview image 205a captured by a camera b. That is, there are two cameras that are acquiring preview images at the same time.

Note that (b) in fig. 2A shows a view interface 203a including only preview images captured by two cameras. However, in actual implementation, the viewing interface in the multi-lens recording mode may further include three cameras and four cameras \8230, the acquired preview images of 8230, and the embodiment of the present application is not limited to the number of cameras shown in fig. 2A (b). In the following embodiments, the present application will be mainly described by taking two cameras as an example.

It should be understood that in a scenario where a camera a and a camera b, i.e. two cameras, are used to simultaneously capture preview images, the camera a and the camera b may be a combination of any two cameras of the plurality of cameras of the mobile phone 100. For example, in the viewfinder interface 203a shown in fig. 2A (b), the camera a may be a rear main camera, and the camera b may be a front camera. As another example, in the viewing interface 201B shown in fig. 2B (a), a preview image 202B captured by a rear telephoto camera and a preview image 203B captured by a rear wide angle camera are included. That is, the camera a may be a rear telephoto camera, and the camera b may be a rear wide-angle camera.

Note that a preview image 204a and a preview image 205a in the viewing interface 203a shown in (b) in fig. 2A are displayed in a split-screen layout. In practical implementation, in a viewing interface of a multi-lens video recording mode, preview images acquired by the two cameras can be displayed in a picture-in-picture layout. Illustratively, the mobile phone may further display a viewing interface 204B shown in (B) of fig. 2B, where the viewing interface 204B includes a preview image 205B captured by the camera a and a preview image 206B captured by the camera B. Therein, preview image 205B is displayed in large window (i.e., full screen window) 205B, preview image 206B is displayed in small window 206B, and small window 206B is within large window 205B. That is, preview image 205b and preview image 206b are displayed in a picture-in-picture layout.

In addition, in some embodiments, in the multi-lens recording mode, the mobile phone 100 may switch from two cameras to a single camera for framing in response to the user operation (for a specific implementation, see the description of embodiment one below). That is, the function of a single camera capturing preview images can be provided in the multi-mirror video recording mode.

For example, in the multi-mirror recording mode, the mobile phone 100 may display the viewfinder interface 201C shown in (a) of fig. 2C. The viewing interface 201c includes a preview image 202c captured by a single camera (e.g., a front camera). Alternatively, the mobile phone may display the viewfinder interface 203C shown in (b) of fig. 2C. The viewfinder interface 203c includes a preview image 204c captured by a single camera (e.g., a rear main camera).

In a multi-lens video mode viewing interface, besides the preview image captured by the camera, one or more of the following elements (e.g., controls, icons) are typically included:

gallery resource control: the gallery resource control is used to trigger the cell phone 100 to show the picture or video that has been taken. For example, the gallery resource control is control 210 in the viewing interface 203a shown in (b) in fig. 2A.

Recording a control part: the record control is used to trigger the mobile phone 100 to start recording a video. For example, the recording control is the control 211 in the viewing interface 203a shown in (b) in fig. 2A.

Front and back camera switches the controlling part: the front and rear camera controls are used to trigger the mobile phone 100 to switch between the front camera and the rear camera. For example, the front-rear camera switching control is the control 212 in the viewing interface 203a shown in (b) in fig. 2A. For the specific content of the front-rear camera switching, reference may be made to the description of the first embodiment below, and a detailed description thereof is omitted here for the sake of brevity.

Shooting mode switching control: the shooting mode switching control is used for triggering the mobile phone 100 to switch the shooting mode. For example, the view interface 203a shown in fig. 2A (b) includes a submenu 202A, where "take picture" in the submenu 202A is a switching control of the take picture mode, "record picture" is a switching control of the record picture mode, and "multi-mirror record picture" is a switching control of the multi-mirror record picture mode.

Beauty control: the beauty control is used to trigger the mobile phone 100 to adjust the beauty level. For example, the beauty control is a control 213 in the viewing interface 203a shown in (b) in fig. 2A. For the details of the beauty adjustment, reference is made to the following description of example two, and the detailed description is not made here.

The micro-shadow control: the micro-movie control is used to trigger the cell phone 100 to take a micro-movie. For example, the micro-cinema control is the control 214 in the viewing interface 203a shown in (b) in fig. 2A. For the details of the micro-cinema shooting, reference may be made to the following description of the sixth embodiment, and the detailed description will not be made here.

Mode icon: the mode icon is used to indicate a multi-mirror sub-mode currently adopted by the mobile phone 100, that is, a camera currently acquiring a preview image, and a layout of the preview image. For example, the mode icon is the icon 215 in the viewing interface 203a shown in (b) in fig. 2A. The icon 215 is composed of a blank rectangle representing the rear camera and a rectangle with a smiley face representing the front camera. Also, the blank rectangle and the rectangle with the smile face are arranged up and down, indicating that the preview image is displayed in an up and down layout.

It should be noted that in each multi-mirror sub-mode, the handset 100 can capture preview images with a particular camera and display the preview images in a particular layout. The specific camera may be any one of the cameras in the mobile phone 100, or a combination of any two of the cameras in the mobile phone 100. The particular layout includes a split screen layout, a picture-in-picture layout, and/or a full screen layout.

In the following embodiments, for convenience of description, the multi-mirror sub-mode mainly includes: a mode in which a front camera and a rear camera are used to collect preview images and display the preview images in a split-screen layout (referred to as a front-back double-mirror mode, for example, a multi-mirror sub-mode corresponding to the viewing interface 203a shown in fig. 2A (b)); a mode in which preview images are acquired by two rear cameras and displayed in a split-screen layout (referred to as a rear double-mirror mode for short, a multi-mirror sub-mode corresponding to a viewing interface 201B shown in fig. 2B (a)); a mode in which a front camera and a rear camera are used to collect preview images and display the preview images in a picture-in-picture layout (referred to as a picture-in-picture mode, for short, a multi-lens sub-mode corresponding to the viewing interface 204B shown in fig. 2B (B)); and a mode of collecting preview images by using a front camera or a rear camera and displaying the preview images in a full-screen layout (if the front camera is used, the mode is simply referred to as a single front mode, such as a multi-mirror sub-mode corresponding to a viewing interface 201C shown in fig. 2C (a), and if the rear camera is used, the mode is simply referred to as a single rear mode, such as a multi-mirror sub-mode corresponding to a viewing interface 203C shown in fig. 2C (b)).

In general, the mobile phone 100 defaults to enter the viewing interface of the front and rear dual-lens mode in response to the user selecting the multi-lens recording mode. That is, in the multi-mirror video recording mode, the default multi-mirror sub-mode is the front-rear dual-mirror mode. And the other multi-mirror sub-modes are obtained by directly or indirectly switching from the front and back double-mirror modes.

A flash lamp icon: the flash icon is used to trigger the mobile phone 100 to set flash parameters during shooting. For example, the flash icon is the icon 216 in the viewing interface 203a shown in (b) in fig. 2A.

Filter icon: the filter icon is used to trigger the cell phone 100 to add a filter when taking a photograph. For example, the filter icon is the icon 217 in the viewing interface 203a shown in (b) in fig. 2A.

Setting an icon: the setting icon 218 is used to trigger the cell phone 100 to set the camera parameters. For example, the setting icon is the icon 218 in the viewing interface 203a shown in (b) in fig. 2A.

A zoom control: the zoom control is used to trigger the mobile phone 100 to adjust the zoom magnification, thereby switching between the multiple rear cameras. For example, the zoom control is a zoom bar 219 in the viewing interface 203a shown in (b) in fig. 2A, and the mobile phone 100 can switch to the corresponding rear camera to capture a preview image in response to a sliding operation of the zoom bar 219 by the user. The following description of the first embodiment can be referred to for specific contents of switching the rear camera by the zoom bar, and detailed description thereof will not be provided here.

The multi-lens recording mode is mainly illustrated with a viewfinder view interface before recording. It should be understood that in the multi-mirror recording mode, the number of cameras turned on during recording, the layout of preview images, etc. are substantially similar to those before recording.

Illustratively, in a scene that is framed with two cameras. Before recording, the mobile phone 100 may display the viewfinder interface 203a shown in (b) in fig. 2A before recording, and during recording, the mobile phone 100 may display the viewfinder interface 201D shown in (a) in fig. 2D. The viewing interface 201d includes a preview image 202d captured by a camera a (e.g., a rear main camera) and a preview image 203d captured by a camera b (e.g., a front camera). Among them, the preview image 202d and the preview image 203d are displayed in a split screen layout.

Alternatively, before recording, the mobile phone 100 may display the viewfinder interface 201B shown in (a) in fig. 2B, and during recording, the mobile phone 100 may display the viewfinder interface 204D shown in (B) in fig. 2D. The viewing interface 204d includes a preview image 205d captured by a camera a (e.g., a rear telephoto camera) and a preview image 206d captured by a camera b (e.g., a rear wide-angle camera). Therein, preview image 205d and preview image 206d are displayed in a split-screen layout.

Alternatively, before recording, the mobile phone 100 may display the viewfinder interface 204B shown in (B) in fig. 2B before recording, and during recording, the mobile phone 100 may display the viewfinder interface 207D shown in (c) in fig. 2D. The viewfinder interface 207d includes a preview image 208d captured by a camera (e.g., a rear main camera) and a preview image 209d captured by a camera b (e.g., a front camera). Preview image 208D is displayed in large window (i.e., full screen window) 208D and preview image 209D is displayed in small window 209D. The large window 208D includes a small window 209D. That is, the preview image 208d and the preview image 209d are displayed in a picture-in-picture layout.

Also exemplary, in a scene that is framed with a single camera. Before recording, the mobile phone 100 may display the view interface 201C shown in (a) in fig. 2C, and during recording, the mobile phone 100 may display the view interface 201E shown in (a) in fig. 2E. The viewing interface 201e includes a preview image 202e captured by a single camera (e.g., a front camera).

Alternatively, before recording, the mobile phone 100 may display the viewfinder interface 203C shown in (b) in fig. 2C, and during recording, the mobile phone 100 may display the viewfinder interface 203E shown in (b) in fig. 2E. The viewing interface 203e includes a preview image 204e captured by a single camera (e.g., a rear main camera).

It should be noted that in the multi-mirror recording mode, elements in the viewing interface during recording and elements in the viewing interface prior to recording are not used. In general, in the viewing interface during recording, one or more of the following elements may be further included:

and (4) photographing control: the photographing control is used for triggering the mobile phone 100 to intercept a video frame in the process of photographing a video. For example, the photographing control is the control 220 in the viewing interface 201D shown in (a) in fig. 2D.

And finishing the recording control: the end recording control is used to trigger the mobile phone 100 to end video recording. For example, the end recording control is control 221 in the viewing interface 201D shown in fig. 2D (a).

And (4) suspending the recording control: the pause recording control is used to trigger the cell phone 100 to pause video recording. For example, the pause recording control is control 222 in the viewing interface 201D shown in fig. 2D (a).

Front and back camera switches the controlling part: similar to the viewing interface before recording, the viewing interface during recording also includes front and rear camera controls. For example, the front-rear camera switching control is the control 223 in the viewing interface 201D illustrated in (a) in fig. 2D. Similarly, the following description of the first embodiment can be referred to for specific contents of switching between front and rear cameras, and detailed description thereof is omitted here.

And (3) panel display control: the panel display control is used for triggering the mobile phone 100 to display a selection panel of the multi-mirror sub-mode. For example, the panel presentation control is the control 224 in the viewing interface 201D shown in (a) in fig. 2D. Wherein the mode panel selection control can be static or the panel presentation control can be dynamic. If the panel display control is dynamically displayed, the attention of a user to the panel display control can be attracted. Thereby guiding the user to use the control. For specific contents of the selection panel and the switching of the multi-mirror sub-mode by the selection panel, reference may be made to the description of the first embodiment below, and a detailed description thereof will not be provided herein.

Mode icon: similar to before recording, the viewing interface during recording also includes a mode icon. For example, the mode icon is a control 225 in the viewing interface 201D shown in (a) in fig. 2D.

Speed doubling identification: the speed multiplier indicates the speed of the handset 100 for playing the current preview frame. For example, the multiple speed indicator is the indicator 226 in the viewfinder interface 201D shown in fig. 2D (a), which indicator 226 indicates that the handset 100 will play the current preview frame at 1 multiple speed. It should be noted that during the recording process, the recording can be suspended, and the double speed flag is in an inoperable state, such as a grey state, in the suspended state. That is, the double speed of the playing video cannot be adjusted in the pause state.

Flash lamp icon: similar to before recording, the camera interface during recording also includes a flash icon. It should be noted that flash parameters are not generally allowed to be adjusted during video recording, and therefore, the flash icon during recording is not operable. For example, the flash icon is an icon 227 in the viewing interface 201D shown in (a) in fig. 2D, and the icon 227 is grayed out to indicate that it is not operable.

A zoom control: similar to before recording, a zoom control is also included in the viewing interface during recording. For example, the zoom control is a zoom bar 228 in the viewing interface 201D shown in fig. 2D (a), and the mobile phone 100 may switch to the corresponding rear camera to capture the preview image in response to a sliding operation of the zoom bar 228 by the user. The following description of the first embodiment can be referred to for specific contents of switching the rear camera by the zoom bar, and detailed description thereof will not be provided here.

In the foregoing, the multi-mirror video recording mode is mainly described in the form of a portrait screen. It should be understood that the landscape screen format is also substantially similar to the portrait screen format. The slight difference between the landscape screen format and the portrait screen format is explained in the related contents of the following embodiments, and will not be explained in detail here.

In the following embodiments, the mode switching function (e.g., embodiment one) and the beauty function (e.g., embodiment two) in the multi-mirror recording mode will be further described in sequence by taking the front and back dual-mirror mode, the picture-in-picture mode, and the single front (or back) mode as examples in the multi-mirror recording mode in combination with the above description of the multi-mirror recording mode

In one embodiment, the function of mode switching is provided.

The video shooting method provided by the embodiment of the application can be applied to the mobile phone 100. Among them, in the view interface of the multi-lens recording mode (including the view interface before recording and the view interface during recording), the mobile phone 100 may display a plurality of mode options for the user to select in response to the operation 1 of the user. Wherein each mode option corresponds to a multi-mirror sub-mode. Then, the mobile phone 100 can switch to the corresponding multi-mirror sub-mode in response to the user selecting any one of the mode options. Therefore, the multi-mirror sub-mode can be flexibly switched before or during recording.

The following describes the scheme of the present application in terms of switching between pre-recording and in-recording, respectively.

Firstly, the multi-mirror sub-mode is switched before video recording. Before recording, operation 1 mainly refers to a user clicking a mode icon.

The embodiment of the application provides a video shooting method, which can switch a multi-mirror sub-mode in a multi-mirror video recording mode before starting video recording. As shown in fig. 3A, the video photographing method includes:

s301a, the mobile phone 100 displays an interface a, which is a viewing interface before the sub-mode 1 video recording. The interface a includes a mode icon 1 of the sub-mode 1. The sub-mode 1 comprises a front and back double-mirror mode, a back and back double-mirror mode, a picture-in-picture mode, a single front mode or a single back mode.

S302a, in response to the click operation of the mode icon 1 by the user, the mobile phone 100 displays a plurality of mode options in the interface a. The multiple mode options correspond to the multiple multi-mirror sub-modes one to one.

For example, the sub mode 1 is a front and rear double mirror mode, the interface a may be a view interface 203a shown in (b) of fig. 2A, and the mode icon 1 may be an icon 215 in the view interface 203 a. The cellular phone 100 may further display a selection panel 310 in the viewfinder interface 203a shown in (a) in fig. 3B in response to the click operation of the icon 215 by the user. The selection panel 310 includes 5 mode options, i.e., a front-back dual-mirror mode, a rear-back dual-mirror mode, a picture-in-picture mode, a single front mode, and a single back mode.

In some embodiments, an identification of a multi-mirror sub-mode may be included in each mode option to indicate a different multi-mirror sub-mode. For example, the abbreviation "front/rear" in the selection panel 310 of fig. 3B (a) indicates the front-rear two-mirror mode. For another example, the abbreviation "picture-in-picture" in the selection panel 310 of fig. 3B (a) indicates a picture-in-picture mode.

In other embodiments, each mode selection may include a layout pattern of the multi-mirror sub-mode, which is used to indicate the layout of the preview image captured by the camera in the viewing interface in the multi-mirror sub-mode. The mobile phone 100 can represent the layout style by the picture, the picture size, and the arrangement of the picture. The pictures can be collected by a camera in real time or preset. By adopting the embodiment, the layout patterns of various multi-mirror sub-modes can be provided for a user before the multi-mirror sub-modes are switched, and the switching can be conveniently, quickly and accurately carried out. Thereby improving the efficiency and accuracy of the handover.

For example, if the preview image captured by the rear camera is represented by a plant picture and the preview image captured by the front camera is represented by a human image picture in the selection panel 310 in fig. 3B (a), the arrangement of the plant picture and the human image picture above and below may indicate the layout effect of the front-rear two-mirror mode.

As another example, if the preview image captured by the rear camera is represented by a plant picture and the preview image captured by the front camera is represented by a portrait picture in the selection panel 310 in (a) in fig. 3B, the plant picture displayed in the human face picture may indicate a layout effect in the picture-in-picture two-mirror mode.

In some embodiments, among the plurality of mode options, a mode option of a currently employed multi-mirror sub-mode (e.g., sub-mode 1) may be highlighted. Thereby facilitating the indication of the currently employed multi-mirror sub-mode.

Still taking the sub-mode 1 as the front-rear dual-mirror mode as an example, the selection panel 310 in fig. 3B (a) is shown. And the layout style frame of the mode options of the front and back double-mirror modes is displayed in a bold mode. Thereby achieving a prominent effect.

In some embodiments, when the plurality of mode options are not displayed, the handset 100 displays a mode icon (e.g., mode icon 1) in state 1. In this case, the mobile phone 100 may display a plurality of mode options in response to a click operation of the mode icon by the user. When the plurality of mode options are displayed, the cellular phone 100 displays a mode icon (e.g., mode icon 1) in state 2. In this case, the mobile phone 100 may close the display of the plurality of mode options in response to the user's click operation on the mode icon. For example, the state 1 is a state of normal display, and the state 2 is a grayed-out state. Therefore, the display and closing states of the mode options can be indicated through the display states of the mode icons, and the unification between the interface elements is realized.

In some embodiments, the cell phone 100 turns off the front and back camera toggle control while the multiple mode options are displayed. For example, the front-rear camera switching control is no longer displayed at the lower right corner of the viewing interface 203a shown in fig. 3B (a). In the case of displaying multiple mode options, the requirement of the user is to switch the multi-mirror sub-mode through the mode options, rather than switching the cameras through the front and rear camera switching controls. At the moment, the display of the front camera and the rear camera switching control is closed, so that the requirements of a user cannot be influenced, and interface elements can be simplified, and the operation of switching the multi-mirror sub-mode is facilitated.

In the above description of S302a, the sub-mode 1 is mainly described as the front-rear dual-mirror mode. It should be understood that the principle is also similar when sub-mode 1 is a rear-rear double mirror mode, a picture-in-picture mode, a single front mode, or a single rear mode. The following is a schematic diagram simply showing that when the sub-mode 1 is the rear double mirror mode, the picture-in-picture mode, and the single rear mode, respectively, a plurality of mode options are displayed.

As an example, the sub-mode 1 is the rear double mirror mode, the interface a may be a view interface 201B shown in (a) of fig. 2B, and the mode icon 1 may be an icon 230 in the view interface 201B. The cellular phone 100 may further display a selection panel 311 in the viewfinder interface 201B shown in (B) in fig. 3B in response to the click operation of the icon 230 by the user. The selection panel 311 includes 5 mode options, i.e., a front-back dual-mirror mode, a rear-back dual-mirror mode, a picture-in-picture mode, a single front mode, and a single back mode. Wherein the mode options for the rear double mirror mode are highlighted.

As an example two, when sub-mode 1 is a picture-in-picture mode, interface a may be a viewing interface 204B shown in (B) of fig. 2B, and mode icon 1 may be an icon 231 in the viewing interface 204B. The cellular phone 100 may further display a selection panel 312 in the viewfinder interface 204B shown in (c) in fig. 3B in response to the click operation of the icon 231 by the user. The selection panel 312 includes 5 mode options, namely, a front-back dual-mirror mode, a rear-back dual-mirror mode, a picture-in-picture mode, a single front mode, and a single back mode. Wherein the mode option of the picture-in-picture mode is highlighted.

Example three, the sub-mode 1 is the single rear mode (the same applies to the single front mode), and then the interface a may be the framing interface 203C shown in (b) in fig. 2C, and the mode icon 1 may be the icon 232 in the framing interface 203C. The cellular phone 100 may further display a selection panel 313 in the finder interface 203c shown in (d) in fig. 3B in response to the click operation of the icon 232 by the user. The selection panel 313 includes 5 mode options, i.e., a front-rear double mirror mode, a rear-rear double mirror mode, a picture-in-picture mode, a single front mode, and a single rear mode. Wherein the mode options for the single post mode are highlighted.

It should be noted that in some embodiments, when the sub-mode 1 is the single front mode or the single rear mode, when the mobile phone 100 displays a plurality of mode options, only the mode options of the front and rear double mirror mode, the rear and rear double mirror mode, and the picture-in-picture mode may be displayed while the front and rear camera switching control is retained. Therefore, on the premise of reducing the change of a viewing interface, the mode can be switched to a front-back double-mirror mode, a rear-back double-mirror mode or a picture-in-picture mode through a plurality of mode options; the front camera and the rear camera can be switched between a single front mode and a single rear mode through the switching control of the front camera and the rear camera.

In practice, the display of multiple mode options may obscure the preview image in the viewing interface, thereby affecting the preview.

Based on this, in some embodiments, in the case that multiple mode options are displayed in the viewing interface, the mobile phone 100 may hide the multiple mode options in response to the operation (e.g., operation 2) of the user, so as to flexibly close the display of the multiple mode options, and avoid blocking the preview image.

Wherein, the operation 2 may be a preset gesture 1 input by the user on the viewing interface. For example, the operation 2 may be a slide-down gesture input by the user in the viewing interface 201B illustrated in (B) in fig. 3B. Alternatively, the operation 2 may be a click operation or a long-press operation by the user on an area other than the plurality of mode options and where no element such as an icon or a control is displayed. Or, the viewing interface includes a panel hiding control, and the operation 2 may be a click operation of the panel hiding control by the user. Wherein the panel hidden control may be a mode icon. For example, the panel hiding control may be a grayed out icon 314 in the viewing interface 201B shown in (B) in fig. 3B. Alternatively, the panel hiding control may be a preset control in the selection panel. For example, the panel hiding control may be the control 3111 in the viewing interface 201B shown in (B) in fig. 3B.

In other embodiments, when the current viewing interface displays a plurality of mode options, the mobile phone 100 starts displaying the plurality of mode options, and hides the plurality of mode options if the user does not receive the operation on the plurality of mode options within a preset time period. Therefore, under the condition that the user does not operate for a long time, a plurality of mode options can be hidden, and the preview is prevented from being influenced.

S303a, the mobile phone 100 displays the interface b in response to the user' S selection operation on the mode option 1. The mode option 1 corresponds to the sub-mode 2, and the interface b is a view-finding interface before the sub-mode 2 is used for recording. The interface b includes a mode icon 2 of the sub-mode 2, and the sub-mode 2 is different from the sub-mode 1.

For example, taking the sub mode 1 as a front-rear double-mirror mode, the mobile phone 100 may display a viewfinder interface 203a shown in (a) of fig. 3B, where the viewfinder interface 203a includes the selection panel 310.

If mode option 1 is option 3101 in selection panel 310, i.e. sub-mode 2 is the rear double mirror mode. The cellular phone 100 may display the viewing interface 201B shown in (a) in fig. 2B in response to the user's selection operation of the option 3101.

If mode option 1 is option 3102 in selection panel 310, i.e. sub-mode 2 is picture-in-picture mode. The cellular phone 100 may display the viewfinder interface 204B shown in (B) of fig. 2B in response to the user's selection operation of the option 3102.

If mode option 1 is to select option 3103 in panel 310, i.e., sub-mode 2 is the single post mode. The cellular phone 100 may display the finder interface 203C shown in (b) of fig. 2C in response to the user's selection operation of the option 3103.

If mode option 1 is option 3104 in selection panel 310, i.e. sub-mode 2 is single lead mode. The cellular phone 100 may display the viewing interface 201C shown in (a) in fig. 2C in response to the user's selection operation of the option 3104.

In the above description of S303a, the sub-mode 1 is mainly described as the front-rear dual-mirror mode. It should be understood that the principle is also similar when sub-mode 1 is a rear-rear double mirror mode, a picture-in-picture mode, a single front mode, or a single rear mode. That is, in response to the user selecting any one of the mode options, the mobile phone 100 may display the view interface of the sub-mode corresponding to the mode option. And will not be described in detail herein.

It should be noted that the foregoing S301a-S303a only describe one switching process before video recording, and in practical implementation, two of the multiple multi-mirror sub-modes may be switched multiple times, and each switching process can be referred to the descriptions of S301a-S303 a. In each switching process, the multi-mirror sub-mode before switching is marked as sub-mode 1, and the multi-mirror sub-mode after switching is marked as sub-mode 2.

In summary, with the method of this embodiment, after entering the view interface of the multi-mirror recording mode and before starting recording, the mobile phone 100 can flexibly switch between the multiple multi-mirror sub-modes according to the selection of the user on the multi-mirror sub-mode. So that it can be switched to a satisfactory multi-mirror sub-mode before starting recording.

And secondly, switching a multi-mirror sub-mode during recording. In recording, the operation 1 may be a click operation of the mode icon by the user, or a click operation or a slide-up operation of the panel display control by the user.

The embodiment of the application provides a video shooting method which can switch a multi-mirror sub-mode in the recording of a multi-mirror video recording mode. In the present embodiment, the description will be given mainly taking, as an example, the operation 1 is a user's slide-up operation on the panel display control. As shown in fig. 3C, the video photographing method includes:

and S301c, displaying an interface c by the mobile phone 100, wherein the interface c is a viewing interface recorded in the sub-mode 1. The interface c comprises a panel display control. The sub-mode 1 comprises a front and back double-mirror mode, a back and back double-mirror mode, a picture-in-picture mode, a single front mode or a single back mode. The panel display control is used for triggering the mobile phone 100 to display a selection panel, where the selection panel includes a plurality of mode options, and the plurality of mode options correspond to the plurality of multi-mirror sub-modes one to one.

In some embodiments, only the recording has a panel show control. Therefore, a new quick entry for switching the multi-mirror sub-mode is provided in the recording process, and the multi-mirror sub-mode is conveniently switched in the recording process. For example, if the sub mode 1 is a front-back double-mirror mode, the interface c may be a view interface 201D shown in fig. 2D (a), and a control 224 is included in the view interface 201D, where the control 224 may be used to trigger the mobile phone 100 to display a selection panel. That is, control 224 is a panel show control.

S302c, the mobile phone 100 displays a plurality of mode options in the interface c in response to the user sliding the panel display control upward.

For example, the sub mode 1 is a front and rear double mirror mode, the interface c may be a viewing interface 201D shown in (a) in fig. 2D, and the panel display control may be a control 224 in the viewing interface 201D. The cellular phone 100 may further display a selection panel 320 in the viewing interface 201d shown in fig. 4 (a) in response to the user's slide-up operation on the control 224. The selection panel 320 includes 5 mode options, i.e., a front-back dual mirror mode, a rear-back dual mirror mode, a picture-in-picture mode, a single front mode, and a single back mode.

For the selection panel, the mode options and the display thereof, reference may be made to the related description in the embodiment shown in fig. 3A, and details are not repeated here. In this embodiment, a difference between recording and non-recording will be mainly described.

In some embodiments, the handset 100 hides the panel display controls when multiple mode options are displayed. For example, the panel presentation control is no longer displayed in the viewing interface 201d shown in fig. 4 (a). In this way, the interface elements can be simplified.

In some embodiments, cell phone 100 turns off the front and back camera toggle control while the multiple mode options are displayed, similar to before recording. For example, the front-rear camera switching control is no longer displayed at the lower right corner of the viewing interface 201d shown in fig. 4 (a).

In the above description of S302c, the sub-mode 1 is mainly described as the front-rear dual-mirror mode. It should be understood that the principle is also similar when sub-mode 1 is a rear-rear double mirror mode, a picture-in-picture mode, a single front mode, or a single rear mode. The following is a schematic diagram simply showing that when the sub-mode 1 is the rear double mirror mode, the picture-in-picture mode, and the single rear mode, respectively, a plurality of mode options are displayed.

Example one, the sub mode 1 is a rear double mirror mode, the interface c may be a viewing interface 204D shown in (b) in fig. 2D, and the panel display control may be a control 240 in the viewing interface 204D. The mobile phone 100 may further display a selection panel 321 in the viewing interface 204d shown in (b) in fig. 4 in response to the user's slide-up operation of the control 240. The selection panel 321 includes 5 mode options, i.e., a front-back dual-mirror mode, a rear-back dual-mirror mode, a picture-in-picture mode, a single front mode, and a single back mode. Wherein the mode options for the rear double mirror mode are highlighted.

Example two, the sub mode 1 is a picture-in-picture mode, then the interface c may be the viewing interface 207b shown in (c) in fig. 2D, and the panel display control may be the control 241 in the viewing interface 207D. The mobile phone 100 may further display a selection panel 322 in the viewing interface 207d shown in (c) in fig. 4 in response to the user's slide-up operation of the control 241. The selection panel 322 includes 5 mode options, i.e., front and rear dual mirror mode, rear and rear dual mirror mode, picture-in-picture mode, single front mode, and single rear mode. Wherein the mode option of the picture-in-picture mode is highlighted.

Example three, the sub-mode 1 is a single front mode (the same applies to single rear), then the interface a may be the viewing interface 201E shown in (a) in fig. 2E, and the panel display control may be the control 242 in the viewing interface 201E. The mobile phone 100 may further display a selection panel 323 in the viewing interface 201e shown in (d) in fig. 4 in response to the user's slide-up operation of the control 242. The selection panel 323 includes 5 mode options, i.e., front and rear dual mirror mode, picture-in-picture mode, single front mode, and single rear mode. Wherein the mode options for the single pre-mode are highlighted.

It should be noted that in some embodiments, similar to before recording, when the sub-mode 1 is the single front mode or the single rear mode, the mobile phone 100 may display only the mode options of the front and rear dual-mirror mode, the rear and rear dual-mirror mode, and the picture-in-picture mode while keeping the front and rear camera switching control.

When multiple mode options are displayed during recording, the multiple mode options can also block the preview image in the viewing interface, thereby affecting preview. Therefore, the mobile phone 100 can also hide the plurality of mode options in a similar manner as before recording, which is not described herein again.

S303c, the mobile phone 100 responds to the selection operation of the user on the mode option 1, and displays the interface d. The mode option 1 corresponds to the sub-mode 2, and the interface d is a view interface recorded in the sub-mode 2. The submode 2 is different from the submode 1.

The implementation principle and process of S303c are similar to those of S303a, and specific reference may be made to the description of S303 a. And will not be described in detail herein. It should be noted that the interface d is a viewfinder interface during recording, and the interface b in S303a is a viewfinder interface before recording.

It should be noted that the foregoing S301c-S303c only describe one switching process before video recording, and in practical implementation, two of the multiple multi-mirror sub-modes may be switched multiple times, and each switching process can be referred to the descriptions of S301c-S303 c. In each switching process, the multi-mirror sub-mode before switching is recorded as a sub-mode 1, and the multi-mirror sub-mode after switching is recorded as a sub-mode 2.

In summary, with the method of this embodiment, after entering the view interface of the multi-mirror video recording mode and starting recording, the mobile phone 100 can flexibly switch between the multiple multi-mirror sub-modes according to the selection of the user on the multi-mirror sub-mode.

The foregoing embodiment shown in fig. 3C mainly illustrates that operation 1 is a click operation performed by a user on a panel display control to describe a switching process in recording. In other embodiments, the implementation principle of the operation 1 is the same when the user clicks the mode icon, and only the conditions for triggering the display of the multiple mode options are different, which will not be described herein again. In addition, in recording, the two forms of the above-described operation 1 may be combined. Therefore, a plurality of mode options can be triggered and displayed in a plurality of modes, and the switching flexibility is improved.

It should be noted that the switching process before recording is not embodied in the finally formed video file. For example, when the front and rear dual-mirror modes are switched to the rear and rear dual-mirror mode before recording and then recording is started, the process of switching from the front and rear dual-mirror mode to the rear and rear dual-mirror mode before recording is not included in the finally formed video file, and only the video recorded in the rear and rear dual-mirror mode is presented.

Unlike the switching before recording, the switching process during recording is embodied in the finally formed video file. Illustratively, after S303c, the handset generates a video file 1 in response to operation 3 of the interface d by the user. This operation 3 is used to trigger the handset to end the video recording. For example, operation 3 may be a click operation of the end recording control by the user. The video file 1 includes a video stream a and a video stream b. The video stream a is a video stream formed by recording videos in the sub-mode 1, and the video stream b is a video stream formed by recording videos in the sub-mode 2.

Further, the video stream a may be composed of n sub-video streams, where n is a positive integer and the value of n is equal to the number of cameras used in sub-mode 1. The n sub-video streams correspond to the n cameras employed in sub-mode 1. That is, each of the n sub-video streams is formed by the multiple frames of preview images captured by the corresponding camera used in sub-mode 1. Likewise, the video stream b may consist of m sub-video streams, where m is a positive integer and the value of m is equal to the number of cameras used in sub-mode 2. The m sub-video streams correspond to the m cameras employed in sub-mode 2. That is, each of the m sub-video streams is composed of multiple frames of preview images captured by the corresponding camera employed in sub-mode 2.

For example, the sub-mode 1 is a front-back dual-mirror mode, the sub-mode 2 is a rear-back dual-mirror mode, and the multi-mirror sub-mode is switched once during video recording. As shown in fig. 5, from 00:00 Within the first 10 seconds (beginning of second 0) to 09. In the following step 00. Then, within 5 seconds from 00. In 00. The video file 1 includes a video stream a1, a video stream a2, a video stream b1, and a video stream b2. The video stream a1 comprises multi-frame preview images acquired by a rear main camera in a front-rear double-mirror mode, and the video stream a2 comprises multi-frame preview images acquired by a front camera in a front-rear double-mirror mode. That is, the video stream a includes two sub-video streams, i.e., a video stream a1 and a video stream a2. The video stream b1 comprises multi-frame preview images collected by a rear long-focus camera in a rear double-mirror mode, and the video stream b2 comprises multi-frame preview images collected by a rear wide-angle camera in the rear double-mirror mode. That is, the video stream b includes two sub-video streams, i.e., a video stream b1 and a video stream b2.

In summary, the multi-mirror sub-mode is switched during the recording process, so that a video file formed by video streams recorded under various multi-mirror sub-modes can be recorded. Thereby, the flexibility and diversity of video recording can be improved.

Further, in some scenarios in recording, it is desirable to display both the zoom control and the panel presentation control, and the panel presentation control may be adjacent to the zoom control. For example, in the viewfinder interface 207D in recording of the picture-in-picture mode shown in (c) in fig. 2D, the panel presentation control 241 and the zoom control 243 are displayed adjacent to each other. As another example, in the viewfinder interface 203E in the recording of the single post mode shown in (b) in fig. 2E, the panel show control 244 and the zoom control 245 are displayed adjacent to each other.

For the above scenario, in some embodiments, the non-interfering response mechanisms are divided for different controls, so as to accurately respond to the user's operation. In a specific implementation manner, in a viewing interface in a single-post mode or a picture-in-picture mode recording, a response hot area of a panel display control (referred to as a panel display hot area for short, including the panel display control) includes a response hot area of a zoom control (referred to as a zoom hot area for short, including the zoom control). In the panel display hot area, when the minimum included angle between the connection line between the start point and the end point of the user input sliding operation and the bottom of the screen is greater than a preset angle (such as 60 °), the mobile phone 100 can be triggered to display the selection panel for switching the multi-mirror sub-mode. In the zoom hot area, when the minimum included angle between the connection line between the start point and the end point of the sliding operation input by the user and the bottom of the screen is smaller than or equal to a preset angle (for example, 60 °), the mobile phone 100 can be triggered to switch the rear camera. It should be understood that since the panel display thermal zone includes a zoom thermal zone, within the zoom thermal zone is meant to be within the panel display zone.

In this implementation, the panel display hot area is large, which may facilitate the user to trigger the mobile phone 100 to display the selection panel. Therefore, the switching difficulty of the multi-mirror sub-mode can be reduced. Meanwhile, the mobile phone 100 responds to the user operation by the minimum included angle between the connection line between the start point and the end point of the user input sliding operation and the bottom of the screen, and can accurately respond to the user operation without confusion.

Illustratively, the single rear mode, the preset angle is 60 °, for example. As shown in fig. 2F (a), in the viewing interface in the single back mode recording, the panel display hotspot includes a zoom hotspot, for example, the height of the panel display hotspot is 60 pixels (dp), the width is the width of the screen, the height of the zoom hotspot is 130dp, and the width is also the width of the screen. The sliding operation 1 slides from the starting point a to the end point B along the arrow 1, and since the points a and B both show hot areas on the panel and the minimum angle between the line connecting the points a and B and the bottom of the screen is greater than 60 °, accordingly, the mobile phone 100 can show a selection panel for switching the multi-mirror sub-mode in response to the sliding operation 1. The sliding operation 2 slides from the starting point a to the end point C along the arrow 2, and since the points a and C are both in the zoom hot area and the minimum included angle between the connecting line of the points a and C and the bottom of the screen is less than 60 °, correspondingly, the mobile phone 100 can switch the rear camera for collecting the image in response to the sliding operation 2.

In addition, in other scenes before or during recording, such as viewing interfaces in a front-back double-mirror mode and a rear-back double-mirror mode, and in viewing interfaces before various multi-mirror sub-modes are recorded, the zoom control is not displayed at the position adjacent to the panel display control. In these scenarios, the corresponding hot zones may be divided for the panel display control individually. Different panel display hot areas can be set for the dynamic panel display control and the static panel display control. For example, a larger panel display hotspot is set for the dynamic panel display control.

Illustratively, the front and rear double mirror mode is taken as an example. As shown in fig. 2F (b), in the viewing interface in the front-back double-mirror mode recording, if the panel display control and the zoom control are far apart, the panel display hot zone may be set to be a rectangular area as shown in the figure, for example, the height is 60dp, and the width is the width of the screen.

In the foregoing description of the first embodiment, the multi-mirror sub-mode is mainly switched by the mode icon or the panel display control, but the practical implementation is not limited thereto. In some embodiments, switching the multi-mirror sub-mode may also be triggered by a preset gesture. For example, in the vertical screen mode, in the case of the mode of capturing images with a single camera, the mobile phone 100 may switch from the mode of capturing images with a single camera to the mode of capturing images with two cameras in response to a sliding gesture of the user from the lower edge or the upper edge of the screen to the middle of the screen. E.g. to a front and rear double mirror mode. As another example, in the vertical screen mode, in the case of the mode of capturing images with two cameras, the mobile phone 100 may switch from the mode of capturing images with two cameras to the mode of capturing images with a single camera in response to a user's slide gesture from a position near the intersection area of the two preview images to the upper edge or the lower edge of the screen. In this embodiment, the mobile phone 100 may be directly triggered to switch the multi-mirror sub-mode through a preset gesture without displaying a mode option, so that convenience of switching may be improved.

In the following embodiments, the present invention will be mainly described in a manner of switching a multi-mirror sub-mode through a mode icon and a panel display control.

In the first embodiment, the multi-mirror sub-mode, i.e. switching the cameras, the layout, etc., is mainly switched through the mode options.

In some embodiments, in order to further improve the convenience of the handover, the following handover methods are also provided:

in the first mode, the front camera and the rear camera are switched by triggering the mobile phone 100 to switch the front camera and the rear camera.

For example, in the single front mode, the mobile phone 100 may switch to the single rear mode in response to a click operation of the user on the front and rear camera switching control. Or, in the single rear mode, the mobile phone 100 may switch to the single front mode in response to a click operation of the user on the front and rear camera switching control.

For another example, in the front-back dual-mirror mode or the picture-in-picture mode, the mobile phone 100 may switch the front camera to a rear camera (e.g., a rear main camera) in response to a click operation of the front-back camera switching control by the user.

For another example, in the rear-rear dual-mirror mode, the mobile phone 100 may switch one of the rear cameras to the front camera in response to a click operation of the front-rear camera switching control by the user, so as to switch to the front-rear dual-mirror mode. For example, the mobile phone 100 may display the view interface 201D shown in (a) in fig. 2D in response to a user clicking operation on a front-rear camera switching control in the view interface 204D shown in (b) in fig. 2D.

In a second mode, when the currently used camera has a rear camera, the mobile phone 100 may be triggered to switch the rear camera through the zoom control.

For example, in the single rear mode, the mobile phone 100 may switch to the corresponding rear camera in response to a user selecting a zoom speed in the zoom control. For example, when 2 times magnification is selected, the cell phone 100 may switch to a rear 2 times telephoto lens.

As another example, in the front-back dual-mirror mode or the picture-in-picture mode, the mobile phone 100 may switch the current rear camera to another rear camera in response to a user's selection operation of the zoom magnification in the zoom control. For example, the mobile phone 100 can switch the currently employed rear camera (e.g., rear main camera) to another rear camera in response to a sliding operation of the zoom bar 228 in the viewing interface 201D shown in (a) in fig. 2D by the user. If the camera slides from 1x to 2x, the camera can be switched from the rear main camera to the rear 2-time long-focus camera.

Further illustratively, in the rear-rear dual-mirror mode, the mobile phone 100 may switch one of the rear cameras to the other rear camera in response to a user's selection operation of a zoom magnification in the zoom control. For example, the mobile phone 100 can switch a rear camera (e.g., a rear 2-time telephoto camera) on which a preview image is displayed to other rear cameras in response to a user's slide operation of the zoom bar in the viewfinder interface 204D shown in fig. 2D (b). If sliding from 2x to 4x, the rear 2x telephoto camera can be switched to the rear 4x telephoto camera.

And in the third mode, the switching of the rear camera is triggered by finger zooming. For example, when the finger is turned on, the switching to the rear telephoto camera is triggered. The larger the opening degree is, the larger the magnification is, the larger the rear telephoto camera is switched to. And when the fingers are kneaded, the switching to the wide-angle camera is triggered.

It should be noted that if there are a plurality of front cameras, the switching may be performed in the second or third mode.

And the mode IV is that the display areas of the preview images acquired by the two cameras are exchanged by double-click operation of the preview images in the double-view interface.

For example, in the front-back double-mirror mode, the mobile phone 100 may change the display areas of the preview image captured by the front camera and the preview image captured by the rear camera in response to a double-click operation of the user on any one of the preview images. For example, the mobile phone 100 may change the display areas of the preview image 202D and the preview image 203D in response to a double-click operation by the user on the preview image 202D or the preview image 203D in the viewing interface 201D shown in (a) in fig. 2D. In exchange, the preview image 202d is displayed below the preview image 203d.

Further illustratively, in the rear-rear double-mirror mode, the mobile phone 100 may change the display areas of the preview images captured by the two rear cameras in response to a double-click operation performed by the user on any one of the preview images. For example, the mobile phone 100 may change the display areas of the preview image 205D and the preview image 206D in response to a double-click operation by the user on the preview image 205D or the preview image 206D in the viewing interface 204D shown in (b) in fig. 2D. After the exchange, the preview image 205d is displayed below the preview image 206d.

As another example, in the pip mode, the mobile phone 100 may change the display areas of the preview image captured by the front camera and the preview image captured by the rear camera in response to a double-click operation of the user on any preview image. For example, the mobile phone 100 can change over the display areas of the preview image 208D and the preview image 209D in response to a double-click operation by the user on the preview image 208D or the preview image 209D in the viewing interface 207D shown in (c) in fig. 2D. In exchange, the preview image 208D is displayed in the small window 209D, and the preview image 209D is displayed in the large window 208D.

In a mode v, in the picture-in-picture mode, zooming the widget window by a finger or dragging the edge of the widget may trigger the mobile phone 100 to zoom the window size of the widget.

Example two, beauty function.

The video shooting method provided by the embodiment of the application can be applied to the mobile phone 100. In the multi-lens recording mode, in the viewing interface before recording, the mobile phone 100 may display one or more beauty effect controls in response to an operation (for example, a click operation) of a user on a beauty control (which may also be referred to as a first control) in the viewing interface, so that the user may select a beauty effect. Then, the mobile phone 100 responds to the operation of the user on the beauty effect control, and then can set the beauty effect of the multi-mirror video recording mode. Therefore, the beauty setting can be completed before the video recording in the multi-mirror video recording mode.

Illustratively, the beauty control is the control 213 in the viewing interface 203a shown in (b) in fig. 2A. The mobile phone 100 may further display a beauty adjustment bar 601 in the viewfinder interface 203a shown in (a) in fig. 6A in response to a click operation of the user on the control 213 in the viewfinder interface 203a shown in (b) in fig. 2A, where the beauty adjustment bar 601 is denoted as a beauty effect control. As shown in (a) in fig. 6A, the default beauty level in the beauty adjustment bar 601 is level 5. Then, the cellular phone 100 may receive a sliding operation of the beauty adjustment bar 601 by the user, that is, a selection operation of a beauty level. As shown in fig. 6A (b), the cellular phone 100 may receive a user selection operation of level 6 in the beauty adjustment bar 601. The mobile phone 100 can adjust the beautifying effect to the effect of 6-level beautifying in response to the user's selection operation of level 6.

It should be noted that, in the above examples in fig. 6A and fig. 6A, the implementation of setting the beauty effect by the mobile phone 100 is described by taking the beauty effect control as a beauty adjusting bar as an example. In practice, the beauty effect control may also be in other forms. For example, the beauty effect control may also be a plurality of effect options, and the plurality of effect options correspond to the plurality of beauty effects one to one. In the embodiments of the present disclosure, the case that the beauty effect control is a beauty adjustment bar is mainly taken as an example to illustrate the solution of the present disclosure.

In some embodiments, in the process of adjusting the beauty level by the user operating the beauty adjustment bar, the mobile phone 100 displays only the preview image and the beauty adjustment bar. While hiding other elements in the viewing interface. Thereby being convenient for users to accurately adjust the beauty level. For example, as shown in fig. 6A (b), in the process of operating the beauty adjustment bar by the user, the mobile phone 100 hides interface elements such as a mode icon, a flash icon, a start recording control, a front-rear camera switching control, and the like, and displays only a preview image and the beauty adjustment bar.

It should be noted that in the multi-mirror video recording mode, in the multi-mirror sub-mode in which two or more cameras are used to collect images, such as the front and rear double-mirror mode, the rear double-mirror mode, or the picture-in-picture mode, there is usually a demand for beauty only when the object to be photographed is a human image. Meanwhile, when two or more cameras are used to capture images, a front camera is generally used to capture a portrait. Based on this, in some embodiments, in the multi-mirror sub-mode in which two or more cameras are used to collect images, only the images collected by the front camera support beauty. Further, in the present embodiment, the mobile phone 100 may display the beauty control near the image of the front camera in the viewing interface. Thus, the object aimed by beauty is convenient to be clear.

For example, the viewfinder interface 203a shown in fig. 2A (b) includes a control 213 therein, and the control 214 is used for triggering the mobile phone 100 to adjust the beauty level. That is, the control 213 is a beauty control. The control 213 is displayed in a display area of an image (such as a human face image) acquired by the front camera in the front-back double-mirror mode. As another example, a beauty control is included in the viewing interface 204B shown in fig. 2B (B), and the beauty control is displayed below a display area (e.g., a small window) of an image (e.g., a human face image) captured by the front camera in the picture-in-picture mode.

In this embodiment, in the front and back dual-mirror mode and the picture-in-picture mode, the image (usually a portrait) collected by the front camera supports beauty, and after the beauty effect is set by the beauty control, only the image collected by the front camera can add the beauty effect. That is to say, in the front and back double mirror mode and the picture-in-picture mode, the beauty control is only used for setting the beauty effect of the image collected by the front camera.

For example, taking the viewing interface before the front-back dual-lens mode video recording shown in fig. 2A (B) as an example, after the beauty effect is set to be 6-level beauty through the control 213 (i.e., the beauty control), the mobile phone 100 may display the viewing interface 602 shown in fig. 6B, in which only the preview image 604 captured by the front camera is added with the beauty effect of 6-level beauty, and the preview image 603 captured by the rear camera is not added with the beauty effect.

In addition, in the multi-mirror sub-mode in which two or more cameras are used to collect images, if the currently used multi-mirror sub-mode is used, the camera used to collect the images does not include a front camera (for example, a rear and rear dual-mirror mode), the mobile phone 100 may not display the beauty control, or the beauty control may be displayed at a position near the bottom of the mobile phone 100 by default. For example, the viewing interface 201B shown in (a) of fig. 2B is a viewing interface of a rear-rear dual-mirror mode, the cameras for acquiring images in the rear-rear dual-mirror mode are two rear cameras, that is, the front camera is not included, and the mobile phone 100 can display the beauty control at a position near the bottom of the mobile phone 100.

Alternatively, in either the single front mode or the single rear mode, it is possible to use a single camera to capture a portrait image, and thus there may be a need for beauty. Based on this, in some embodiments, both the front camera and the rear camera support beauty. Further, in the single front mode or the single rear mode, the mobile phone 100 may display the beauty control in the viewing interface. And after the beautifying effect is set through the beautifying control, the beautifying effect can be added to the preview image displayed in the full screen.

That is to say, in the common multi-mirror sub-mode, the single front-view mode and the single rear-view mode support beauty, the images collected by the front-view camera in the front-back dual-view mode and the picture-in-picture mode support beauty (may also be called partial-view beauty), and the rear-back dual-mirror mode does not support beauty. As can be seen from the description of the first embodiment, in the multi-mirror video recording mode, the mobile phone 100 can switch between two of the multi-mirror sub-modes. On the premise of this, it is possible to switch from the mode supporting beauty (such as single post mode) to a mode partially supporting beauty or not supporting beauty; alternatively, it is also possible to switch from a mode in which beauty is partially supported to a mode in which beauty is not supported.

Based on this, the embodiment of the present application provides a video shooting method, which can be applied to the mobile phone 100. In this embodiment, the mobile phone 100 can intelligently set the beauty effect according to the multi-mirror sub-mode before and after switching, so as to adapt to the support situation of the multi-mirror sub-mode for beauty. The following describes a specific implementation of the intelligent setting beautifying effect in several typical scenarios:

scene 1, adopt two cameras to gather the image from adopting the mode of single camera collection image to switch to, and include the rear camera in two cameras after the switching.

Referring to fig. 6C, a flowchart of a video shooting method provided in the embodiment of the present application may be applied to the mobile phone 100. In this embodiment, a scene 1 is mainly taken as an example to describe specific implementation of intelligently setting a beauty effect.

As shown in fig. 6C, the video capturing method of the present embodiment may include:

s611, the mobile phone 100 displays an interface a, where the interface a is a viewing interface recorded by using the first camera. The interface a comprises a first preview image displayed in a full screen mode. The first preview image is obtained by adding a first beauty effect to the first image acquired by the first camera by the mobile phone 100. The first camera is a front camera or a rear camera.

The video-recording view interface may be a view interface before video recording or a view interface during video recording. That is, the interface a (which may also be referred to as a first interface) may be a viewfinder interface before recording or a viewfinder during recording. That is, before and during the recording, the method of the embodiment can be used to intelligently set the beauty effect.

In some embodiments, the beauty effect in the interface a is set by the mobile phone 100 according to the user's operation on the beauty control and the beauty effect control.

In this embodiment, before S611, the mobile phone 100 needs to set the beauty effect recorded by the first camera as the first beauty effect according to the operation of the user on the beauty control and the beauty effect control. The process of specifically setting the beautifying effect is described above, and is not described herein again. After finishing the setting of the beauty effect, the mobile phone 100 may display an interface a, and the preview image in the interface a has the first beauty effect. That is, the interface a is a viewfinder interface before recording. Or after finishing the beauty setting, the mobile phone 100 may display the interface a in response to an operation of starting to record a video by the user (e.g., an operation of clicking a start-recording control), where the preview image in the interface a has a first beauty effect. That is, the interface a is a viewfinder interface during recording. In the following embodiments, the present application will be mainly described by taking an example in which the interface a is a viewing interface during recording.

In other embodiments, the beauty effect in the interface a may be a result of intelligently setting the beauty effect according to the switching of the multi-mirror sub-mode after the mobile phone 100 adopts the scheme of the present application.

For example, in one scenario, the first camera may be a front camera, and then the interface a may be a viewing interface 621 shown in (a) in fig. 6D, and the first preview image may be a preview image 622 included in the viewing interface 621, where the preview image 622 is obtained by adding a first beauty effect (e.g. 6-level beauty) to an image captured by the front camera by the mobile phone 100.

For example, in another scenario, the first camera may also be a rear camera, and then the interface a may be a viewing interface 623 shown in fig. 6D (b), and the first preview image may be obtained by including a preview image 624 in the viewing interface 623, where the preview image 624 is obtained by adding a first beauty effect (for example, 6-level beauty) to an image captured by the rear camera by the mobile phone 100.

S612, the mobile phone 100 displays a plurality of mode options in the interface a in response to the operation 1 of the user on the interface a. The plurality of mode options correspond to the plurality of multi-mirror modes one to one.

Before S612, the cell phone 100 may receive operation 1 of the user on the interface a.

S613, the mobile phone 100 displays the interface b in response to the user' S selection operation on the mode option 1. The mode option 1 corresponds to a mode in which the second camera and the third camera are used for acquiring images, the interface b is a viewing interface in which the second camera and the third camera are used for acquiring images, and the interface b comprises a second preview image obtained by processing the second image acquired by the second camera and a third preview image obtained by processing the third image acquired by the third camera. And the second preview image and the third preview image are not added with the beautifying effect in the preview image collected by the rear camera.

Prior to S613, the cellular phone 100 may receive a user selection operation for the mode option 1.

For specific implementation of the switching of the multi-mirror sub-mode (for example, switching from the mode of acquiring images by using a single camera to the mode of acquiring images by using two cameras in S612-613), reference may be made to relevant descriptions in the first embodiment, and details are not described herein again. In addition, for convenience of description, an operation of triggering the mobile phone 100 to acquire an image from a single camera to two cameras (a second camera and a third camera) may be referred to as a first operation. For example, the user's selection operation of mode option 1 is the first operation. Also for convenience of description, the interface b may be referred to as a second interface.

The mode option 1 may correspond to a front-rear dual-lens mode, that is, the second camera may be a front camera and the third camera may be a rear camera. Accordingly, the interface b is a viewing interface of the front and rear dual-mirror mode. Further, to different first cameras, the result of the mobile phone 100 intelligently setting the beauty effect is as follows:

first, the first camera is a front camera.

The rear camera in the front and back double-lens mode does not support beauty, and then the third image collected by the third camera cannot use the beauty effect. Meanwhile, the first camera is a front camera, and a second image collected by the second camera can continue to use the first beautifying effect. That is to say, the first camera is a front camera, the second camera is a front camera, the third camera is a rear camera, and the interface b includes the second preview image and the third preview image, then the first beauty effect is added to the second preview image, and the beauty effect is not added to the third preview image. Namely, the images collected by the front camera follow the beautifying effect before switching, and the images collected by the rear camera do not use the beautifying effect.

For example, the interface a is the view interface 621 of the single front mode shown in (a) in fig. 6D, and after switching to the front-back dual-mirror mode, the mobile phone 100 may display the view interface 625 of the front-back dual-mirror mode shown in (a) in fig. 6E, that is, the view interface 625 is the interface b. The viewing interface 625 includes a preview image 627 and a preview image 626, where the preview image 627 is a second preview image and the preview image 626 is a third preview image. Preview image 627 has a first beauty effect added thereto and preview image 626 has no beauty effect added thereto.

And secondly, the first camera is a rear camera.

The rear camera in the front and back double mirror mode does not support beautiful face, and then the third image that the third camera was gathered can not use beautiful face effect. Meanwhile, the first camera is a rear camera, and a second image acquired by the second camera cannot continue to use the beautifying effect of switching the front camera and the rear camera. That is to say, the first camera is a rear camera, the second camera is a front camera, the third camera is a rear camera, and the interface b includes the second preview image and the third preview image, so that neither the second preview image nor the third preview image has a beauty effect. Namely, the image collected by the front camera does not use the beauty effect, and the image collected by the rear camera does not use the beauty effect before switching.

Illustratively, the interface a is a view interface 623 in the single rear mode shown in (b) in fig. 6D, and after switching to the front and rear dual-mirror mode, the mobile phone 100 may display a view interface 628 in the front and rear dual-mirror mode shown in (b) in fig. 6E, that is, the view interface 628 is the interface b. The viewing interface 628 includes a preview image 630 and a preview image 629, the preview image 630 being a second preview image and the preview image 629 being a third preview image. In both preview images 630 and 629, no beauty effect is added.

Wherein, mode option 1 may correspond to a picture-in-picture mode, the second camera may be a front camera, and the third camera may be a rear camera. Accordingly, the interface b is a viewing interface of the front and rear dual-mirror mode. Further, the result of intelligently setting the beauty effect of the mobile phone 100 for different first cameras is also different, which is similar to the front and back dual-lens mode. For a specific principle, reference may be made to the foregoing description about intelligently setting a beauty effect in the front-back dual-mirror mode, which will not be described herein again, but only will be described in the following two examples.

For example, the first camera is a front camera, the interface a may be the view interface 621 in single front mode shown in (a) in fig. 6D, and after switching to the picture-in-picture mode, the mobile phone 100 may display the view interface 631 in picture-in-picture mode shown in (a) in fig. 6F, that is, the view interface 631 is the interface b. Preview images 632 and 633 are included in the viewfinder interface 631. Preview image 632 is a second preview image and preview image 633 is a third preview image. Here, the preview image 632 is added with the first beauty effect, and the preview image 633 is not added with the beauty effect.

In example two, the first camera is a rear camera, the interface a is the single rear mode viewing interface 623 shown in (b) in fig. 6D, and after switching to the picture-in-picture mode, the mobile phone 100 may display the picture-in-picture mode viewing interface 634 shown in (b) in fig. 6F, that is, the viewing interface 634 is the interface b. The viewing interface 634 includes a preview image 635 and a preview image 636, where the preview image 635 is a second preview image and the preview image 636 is a third preview image. In both preview image 635 and preview image 636, no beauty effect is added.

Wherein, mode option 1 can correspond back double mirror mode, and second camera and third camera all are rear camera promptly. Accordingly, the interface b is a view finding interface of the rear double mirror mode. Furthermore, the images collected by two rear cameras in the rear double-mirror mode do not support beauty, so that no matter the first camera is a front camera or a rear camera, beauty is not added in the second preview image and the third preview image.

For example, taking the first camera as a rear camera as an example, the interface a is the view interface 623 in the single rear mode shown in (b) in fig. 6D, and after switching to the rear-rear dual-mirror mode, the mobile phone 100 may display the view interface 204D shown in (b) in fig. 2D, that is, the view interface 204D is the interface b. The viewing interface 204d includes a preview image 205d and a preview image 206d, where the preview image 205d is a second preview image and the preview image 206d is a third preview image. Because the rear camera in the rear double-mirror mode does not support beauty, the beauty effect of the front camera and the rear camera cannot be switched to the rear double-mirror mode. That is, neither preview image 205d nor preview image 206d adds a beauty effect.

Further, in some embodiments, after switching from the mode of capturing images with a single camera to the mode of capturing images with two cameras, the mobile phone 100 can intelligently add a beauty effect to images captured by different cameras. The handset 100 can then switch back to the mode in which a single camera is used to capture images. In view of this situation, in the present embodiment, the video capturing method further includes:

s614, the mobile phone 100 displays a plurality of mode options in the interface b in response to the operation 1 performed by the user on the interface b.

S615, the mobile phone 100 displays the interface c in response to the selection operation of the mode option 2 by the user. Mode option 2 corresponds to a mode in which the fourth camera is used to capture images, and interface c is a viewing interface in which the fourth camera is used to record images. The interface c includes a fourth preview image displayed in full screen, where the fourth preview image is obtained by adding the first beauty effect to the fourth image acquired by the fourth camera by the mobile phone 100.

The fourth camera may be the same as or different from the first camera. For example, the first camera may be a rear main camera, and the fourth camera may be a rear main camera or a front camera.

Through the above S614-S615, the mobile phone 100 can resume from the mode of capturing images with two cameras to the mode of capturing images with a single camera, and after switching, the interface c can be displayed. In the interface c, a first beautifying effect may be added to the image captured by the single camera. For convenience of description, the interface c may be referred to as a third interface, and an operation (for example, a user selection operation on the mode option 2) of triggering the mobile phone 100 to acquire an image from two cameras is referred to as a second operation.

For example, taking the interface b as the view interface 625 shown in (a) in fig. 6E as an example, after switching to the single-front mode, the mobile phone 100 may display the view interface 621 shown in (a) in fig. 6D, that is, the view interface 621 is the interface c. The preview image 622 in this viewing interface 621 is added with the first beauty effect, that is, the preview image 622 is the fourth preview image.

In summary, with the method of this embodiment, in the viewfinder interface before recording or in the viewfinder interface during recording, after the mode in which a single camera is used to collect images is switched to the mode in which two cameras are used to collect images, the mobile phone 100 can intelligently set the beauty effect of the images collected by the two cameras respectively. Thereby improving the rationality of the beauty setting.

In scene 2, the mode is switched from the mode of adopting a front camera and a rear camera to collect images (such as a front-back double-mirror mode or a picture-in-picture mode) to the mode of adopting two rear cameras to collect images (such as a rear-back double-mirror mode).

Please refer to fig. 6G, which is a flowchart of a video shooting method provided in the embodiment of the present application, and the video shooting method can be applied to the mobile phone 100. In this embodiment, a scene 2 is mainly taken as an example to describe a specific implementation of the intelligent setting beautifying effect.

As shown in fig. 6G, the video capturing method of the present embodiment may include:

s641 is that the mobile phone 100 displays an interface a, where the interface a is a viewing interface recorded in a front-back dual-lens mode or a picture-in-picture mode. The interface a comprises a first preview image and a fifth preview image. The first preview image is obtained by adding a first beauty effect to the first image acquired by the first camera by the mobile phone 100, and the second preview image is not added with a beauty effect.

For example, the interface a may be a view interface 625 of the front and rear double mirror mode shown in (a) in fig. 6E, where the view interface 625 includes a preview image 626 and a preview image 627, the preview image 627 is a first preview image, and the preview image 626 is a fifth preview image. Preview image 627 has a first beauty effect added thereto, and preview image 626 has no beauty effect added thereto.

That is, in the present embodiment, in the front-rear double mirror mode before switching, the first beauty effect is added to the image captured by the front camera. Similarly, the beauty effect in the interface a may be set according to the operation of the user on the beauty control and the beauty effect control, or may be intelligently set according to the switching of the multi-mirror sub-mode after the scheme of the application is adopted.

S642, the mobile phone 100 displays a plurality of mode options in the interface a in response to the user' S operation 1 on the interface a. The multiple mode options correspond to the multiple multi-mirror sub-modes one to one.

S643, the mobile phone 100 displays the interface b in response to the user' S selection operation of the mode option 1. Mode option 1 corresponds to the rear double mirror mode, and interface b is a viewing interface for recording in the rear double mirror mode. The interface b includes a second preview image and a third preview image, the second preview image is obtained by processing, by the mobile phone 100, a second image acquired by the second camera, and the third preview image is obtained by processing, by the mobile phone 100, a third image acquired by the third camera. And neither the second preview image nor the third preview image is added with a beautifying effect.

Since the rear and rear dual-mirror mode does not support beauty at all, after the front and rear dual-mirror mode or the picture-in-picture mode is switched to the rear and rear dual-mirror mode, the mobile phone 100 needs to turn off the beauty effect (for example, the first beauty effect) of the front camera.

Illustratively, the interface a is a viewing interface 625 of the front and rear double mirror mode shown in (a) in fig. 6E, the first preview image is a preview image 627, and the preview image 627 has a first beauty effect; the fifth preview image is preview image 626, and preview image 626 does not have the first beauty effect. After switching to the rear double mirror mode, the mobile phone 100 may display the view interface 204D shown in (b) in fig. 2D, that is, the view interface 204D is the interface b. The viewing interface 204d includes a preview image 205d and a preview image 206d, where the preview image 205d is a second preview image and the preview image 206d is a third preview image. Since neither of the rear cameras in the rear-rear double mirror mode supports beauty, neither of the preview image 205d and the preview image 206d is added with a beauty effect.

Further, in some embodiments, after switching from capturing images with one front camera and one rear camera to capturing images with two rear cameras, the mobile phone 100 can intelligently turn off the beauty effect. The handset 100 can then switch back to using one front-facing camera and one rear-facing camera to capture images again. In view of this situation, in the present embodiment, the video capturing method further includes:

s644, the mobile phone 100 displays a plurality of mode options on the interface b in response to the operation 1 of the user on the interface b.

S645, the mobile phone 100 displays the interface d in response to the user' S selection operation on the mode option 3. The interface d is a viewing interface of a front and rear double mirror mode or a picture-in-picture mode. The interface d comprises a sixth preview image and a seventh preview image, the sixth preview image is obtained by adding a first beautifying effect to a sixth image acquired by a sixth camera, and the seventh preview image is obtained by processing a seventh image acquired by a seventh camera. The sixth camera is a front camera, the seventh camera is a rear camera, and the seventh preview image is not added with a beautifying effect.

That is, the mode option 3 corresponds to the front and rear dual mirror mode or the picture-in-picture mode.

The display layout of the sixth preview image and the seventh preview image in the interface d may be the same as the display layout of the first preview image and the fifth preview image in the interface a. Illustratively, both are split screen layouts or both are picture-in-picture layouts. Alternatively, the display layout of the sixth preview image and the seventh preview image in the interface d may be the same as the display layout of the first preview image and the fifth preview image in the interface a. Illustratively, the sixth preview image and the seventh preview image are in a split screen layout in the interface d, and the first preview image and the fifth preview image are in a picture-in-picture layout in the interface a. For example, the interface a is the viewing interface 625 of the front and rear double mirror mode shown in (a) of fig. 6E, and the interface d is the viewing interface 631 of the picture-in-picture mode shown in (a) of fig. 6F. As another example, the sixth preview image and the seventh preview image are in a picture-in-picture layout in the interface d, and the first preview image and the fifth preview image are in a split-screen layout in the interface a. For example, the interface a is the view interface 631 in the picture-in-picture mode shown in fig. 6F (a), and the interface d is the view interface 625 in the front-rear double mirror mode shown in fig. 6E (a).

In this embodiment, after switching from collecting images with one front camera and one rear camera to collecting images with two rear cameras, the mobile phone 100 may cancel the beauty effect; then, after switching back to the front camera and the rear camera to acquire images, the mobile phone 100 can display the interface d. In the interface d, the addition of the beautifying effect to the image collected by the front camera can be restored. For convenience of description, the interface d may also be referred to as a fourth interface, and the operation of triggering the mobile phone 100 to acquire images by using two rear cameras and to acquire images by using one front camera and one rear camera (for example, the user selects the mode option 3) may be referred to as a third operation.

Illustratively, the interface b is the rear-rear two-mirror mode viewing interface 204D shown in (b) of fig. 2D, and after switching to capturing images with one front camera and one rear camera, for example, switching back to the picture-in-picture mode, the mobile phone 100 may display the viewing interface 631 shown in (a) of fig. 6F. Preview image 632 and preview image 633 are included in viewfinder interface 631, with preview image 632 being a sixth preview image and preview image 633 being a seventh preview image. The preview image 632 is added with a first beauty effect.

In summary, with the method of this embodiment, in the viewing interface before recording or in the viewing interface during recording, the mobile phone 100 may intelligently turn off the beauty effect after acquiring images by using one front camera and one rear camera and switching to acquiring images by using two rear cameras. Thereby improving the rationality of the beauty setting.

In some embodiments of the foregoing scene 1 and scene 2, after the mobile phone 100 intelligently turns off the beauty effect of all or part of the images collected by the cameras, the mobile phone 100 may further display the prompt 1 in the interface b. The prompt 1 is used to prompt that beauty has been turned off.

Illustratively, the interface a is a single post mode viewfinder interface 623 shown in fig. 6D (b). The preview image 624 in the viewing interface 623 is added with a first beauty effect, that is, the first beauty effect is added to the image collected by the rear camera. Then, if the mobile phone 100 switches to the front-rear dual-mirror mode, the interface b may be the view interface 651 shown in fig. 6H. The viewing interface 651 includes therein a preview image 652, a preview image 653, and a prompt 654. Neither the preview image 651 nor the preview image 652 has the beauty effect added, i.e., the first beauty effect is turned off. The prompt 654 specifically includes: when two cameras are used for recording, the rear camera does not support beauty and is used for prompting that the beauty is closed. That is, prompt 654 is prompt 1.

It should be noted that in the process of entering the multi-mirror recording mode to exiting the multi-mirror recording mode, the mobile phone 100 only displays the prompt 1 in the process of intelligently setting the beauty effect when the beauty effect is turned off for the first time. And thereafter not displayed. Thereby avoiding affecting the preview.

And in the scene 3, the image acquisition by adopting a front camera and a rear camera is switched to the image acquisition by adopting a single camera.

The mode of collecting images by adopting a front camera and a rear camera can be a front-back double-lens mode or a picture-in-picture mode. In the following description of the scene 3, the front and rear dual mirror mode is mainly taken as an example for description, and the principle of the pip mode is similar, which will not be described herein again.

The front and back double-lens mode is adopted before switching, and a first beautifying effect is added to the image collected by the front camera. If the single preposition mode is adopted after the switching, the first beautifying effect can be continuously used. That is, in the switched viewing interface, the first beauty effect is added to the preview image. And if the mode is the single-post mode after switching, the first beautifying effect is cancelled. That is, in the switched viewing interface, the first beauty effect is not added to the preview image.

For example, the front-rear dual-mirror mode is used before the switching, and a first beautifying effect is added to the image captured by the front camera, the mobile phone 100 may display a viewing interface 625 of the front-rear dual-mirror mode shown in (a) in fig. 6E. The preview image 627 in the viewing interface 625 is added with a first beauty effect, that is, the first beauty effect is added to the image collected by the front camera. If the switched mode is the single front mode, the mobile phone 100 may display the view interface 621 of the single rear mode shown in (a) of fig. 6D. The preview image 622 displayed in the full screen in the viewing interface 621 is added with the first beauty effect, that is, the image collected by the single front camera continues to use the first beauty effect. If the switched mode is the front-back mode, the mobile phone 100 may display the view interface 203E shown in (b) of fig. 2E. The preview image 204e displayed in full screen in the viewing interface 203e is not added with the first beauty effect. I.e. the beautifying effect is switched off.

And 4, switching to other multi-mirror sub-modes from an image acquisition mode (such as a rear double-mirror mode) by adopting two rear cameras.

Under the condition that two cameras are adopted to collect images, the rear camera does not support beauty, and then the rear double-lens mode does not support beauty. Therefore, the preview image in the viewing interface of the rear double-mirror mode is not added with the beautifying effect, and on the basis, the beautifying effect is still not added after the multi-mirror sub-mode is switched to other multi-mirror sub-modes.

Regarding the above-described scenarios 3 and 4, the following description is required:

scene 3 may appear after S613 of scene 1, i.e., after switching from capturing images with a single camera to capturing images with one front camera and one rear camera, switching again to capturing images with a single camera. For the case where scene 3 appears after S613 of scene 1, it can be processed as in S615, otherwise, it is processed as in scene 3. Thereby can guarantee the intelligence and set up the uniformity of beautiful face effect, avoid taking place the conflict.

Similarly, scene 4 may appear after S613 of scene 1, i.e., after switching from acquiring images with a single camera to acquiring images with two rear cameras, switching again to acquiring images with a single camera. For the case where scene 4 occurs after S613 of scene 1, the process can be handled as S615. Alternatively, scene 4 may appear after S643 of scene 2, i.e., after switching from capturing images with one front camera and one rear camera to capturing images with two rear cameras, switching again to capturing images with one front camera and one rear camera. In the case where scene 4 appears after S643 of scene 2, the process may be performed as S645. Otherwise, processing is performed as in scenario 4. Therefore, the consistency of the intelligent beautifying effect can be ensured, and conflicts are avoided.

In addition, because the beauty level can not be set manually by the user in the video recording process, the mode of intelligently setting the beauty effect can be adopted, and the automatic setting of the beauty effect in the video recording process can be realized.

In the foregoing description of the beauty function, a specific implementation of automatically setting beauty of a mobile phone is described with only one or two switching processes for various scenes. In practice, in the process of switching more than two times, the beauty can be automatically set. The following describes a specific implementation of automatically setting the beauty of the mobile phone in the process of switching the multi-mirror sub-mode for multiple times by using a complete example.

Before the first switching, the mobile phone collects images through the first camera and displays the images in a full screen mode. Wherein, the first camera is a rear camera. That is, before the first switching, the recording mode adopted by the mobile phone is the single post mode. In the single-post mode, after the first beautifying effect is added to the mobile phone, a first interface can be displayed, the first interface is a viewing interface of the mobile phone video, the first interface comprises a first preview image displayed in a full screen mode, and the first preview image is obtained after the first beautifying effect is added to the first image acquired by the first camera. For example, the first interface is a view interface 623 illustrated in (b) in fig. 6D.

The first interface further includes a first control (such as a mode icon or a panel display control), and the first control is used for triggering the mobile phone to switch the recording mode (i.e., the multi-mirror sub-mode).

In the single-rear mode, the mobile phone can switch the recording mode into a front-rear double-mirror mode or a picture-in-picture mode through the first control. Specifically, the mobile phone can receive a click operation of a user on a first control in the first interface. The mobile phone responds to the click operation, a plurality of options (namely a plurality of mode options) can be displayed in the first interface, and the plurality of options correspond to the plurality of recording modes one to one. The mobile phone can receive the selection operation of a user on a first option, wherein the first option is one of a plurality of options, and the first option corresponds to a front-back double-mirror mode or a picture-in-picture mode. The mobile phone responds to the selection operation and can display a second interface, the second interface is a viewing interface of the mobile phone video, the second interface comprises a second preview image and a third preview image, the second preview image is obtained after the second image acquired by the second camera is processed and the beauty effect is not added, and the third preview image is obtained after the third image acquired by the third camera is processed and the beauty effect is not added. Namely, the mobile phone responds to the selection operation of the user on the first option, and can be switched to a front-back double-mirror mode or a picture-in-picture mode, and in a switched view interface, the two preview images do not add a beautifying effect. For example, the first interface is a single rear mode view interface 623 shown in (b) in fig. 6D, and the second interface is a front and rear double mirror mode view interface 628 shown in (b) in fig. 6E.

After switching to the front and back double-lens mode or the picture-in-picture mode, the mobile phone can also display first prompt information in the second interface, and the first prompt information is used for prompting that the images collected by all rear cameras do not support beauty under the condition that the two cameras are used for collecting the images. The user may thus be prompted for the reason to cancel the filter.

After switching to the front and back double mirror mode or the picture-in-picture mode and canceling the beauty, the mobile phone can be continuously switched to the single front mode or the single rear mode. Specifically, the second interface may also include a first control, and after the second interface is displayed, the mobile phone may receive a click operation of the user on the first control in the second interface. The mobile phone responds to the click operation and displays a plurality of options in the second interface. The mobile phone receives the selection operation of the user on a second option, wherein the second option is one of a plurality of options, and the second option corresponds to a single front mode or a single rear mode. And the mobile phone responds to the selection operation and displays a third interface, the third interface is a viewing interface of the mobile phone video, the third interface comprises a fourth preview image displayed in a full screen mode, and the fourth preview image is obtained by adding a first beautifying effect to a fourth image acquired by a fourth camera. The fourth camera is a rear camera or a front camera. That is, the mobile phone may switch to the single front-end mode or the single rear-end mode in response to the selection operation of the user on the second option, and may recover to the beautifying effect before the first switching, that is, the first beautifying effect. For example, the second interface is a front-rear dual-mirror mode view interface 628 shown in (b) in fig. 6E, and the third interface is a single front mode view interface 621 shown in (a) in fig. 6D.

If the fourth camera is a front-facing camera, the mobile phone can be switched to a single front-facing mode, and after the beautifying effect is achieved, the mobile phone can be further switched to a front-back double-lens mode or a picture-in-picture mode. Specifically, the third interface may also include a first control, and after the third interface is displayed, the mobile phone may receive a click operation of the user on the first control in the third interface. And the mobile phone responds to the click operation and displays a plurality of options in the third interface. And the mobile phone receives the selection operation of the user on a third option, wherein the third option corresponds to a front-back double-mirror mode or a picture-in-picture mode. It should be noted that the recording mode corresponding to the fourth option and the recording mode corresponding to the first option may be the same, for example, both the front and rear double mirror modes. Or, the recording mode corresponding to the fourth option may also be the same as the recording mode corresponding to the first option, for example, the recording mode corresponding to the fourth option is a picture-in-picture mode, and the recording mode corresponding to the first option is a front-back double mirror mode. And the mobile phone responds to the selection operation and displays a fourth interface, wherein the fourth interface is a viewing interface of the mobile phone video, and the fourth interface comprises a fifth preview image and a sixth preview image. The fifth preview image is obtained by adding a first beautifying effect to a fifth image acquired by a fifth camera, and the fifth camera is a front camera. The sixth preview image is obtained by processing the fifth image collected by the sixth camera without adding a beautifying effect, and the sixth camera is a rear camera. That is, after switching from the single front mode to the front-rear double-mirror mode or the picture-in-picture mode, the image collected by the front camera may continue to use the first beauty effect before switching, while the image collected by the rear camera does not add beauty effect. For example, the third interface is a single front mode view interface 621 shown in (a) in fig. 6D, and the fourth interface is a front-rear double mirror mode view interface 625 shown in (a) in fig. 6E.

After the single front mode is switched to the front and back double mirror mode or the picture-in-picture mode, the mobile phone can be continuously switched to the back and back double mirror mode. Specifically, the recording mode further includes a rear double mirror mode, and the fourth interface may also include a first control. After the fourth interface is displayed, the mobile phone can receive click operation of a user on the first control in the fourth interface. And the mobile phone responds to the click operation and displays a plurality of options in the fourth interface. The mobile phone can receive the selection operation of the user on a fourth option, wherein the fourth option is one of a plurality of options, and the fourth option corresponds to a rear double mirror mode. And the mobile phone responds to the selection operation and displays a fifth interface, wherein the fifth interface is a viewing interface of the mobile phone video, and the fifth interface comprises a seventh preview image and an eighth preview image. The seventh preview image is obtained by processing the seventh image acquired by the seventh camera and adding no beauty effect, and the eighth preview image is obtained by processing the eighth image acquired by the eighth camera and adding no beauty effect. And the seventh camera and the eighth camera are rear cameras. That is to say, after switching from the front-rear double-mirror mode or the picture-in-picture mode to the rear-rear double-mirror mode, the images collected by the two rear cameras do not add a beautifying effect. For example, the fourth interface is the framing interface 625 of the front-rear two-mirror mode shown in (a) in fig. 6E, and the fifth interface is the framing interface 204D of the rear-rear two-mirror mode shown in (b) in fig. 2D.

Or, after switching to the front and back double mirror mode or the picture-in-picture mode, canceling the beauty treatment, continuing to switch to the single front mode or the single rear mode, and recovering the beauty treatment effect, the mobile phone can also continue to switch to the back and back double mirror mode. Specifically, the recording mode further includes a rear double mirror mode, and the third interface further includes a first control. After the third interface is displayed, the mobile phone receives click operation of a user on a first control in the third interface. And the mobile phone responds to the click operation and displays a plurality of options in the third interface. The mobile phone receives the selection operation of the user on a fourth option, the fourth option is one of the options, and the fourth option corresponds to the rear double-mirror mode. And the mobile phone responds to the selection operation and displays a sixth interface, wherein the sixth interface is a viewing interface of the mobile phone video, and the sixth interface comprises a ninth preview image and a tenth preview image. The ninth preview image is obtained by processing the ninth image collected by the ninth camera without adding a beautifying effect. The tenth preview image is obtained by processing the tenth image collected by the tenth camera without adding a beauty effect. The ninth camera and the tenth camera are rear cameras. That is, after switching from the single front mode or the single rear mode to the rear double-mirror mode, the images collected by the two rear cameras do not add a beautifying effect. For example, the third interface is a single front mode viewing interface 621 shown in (a) in fig. 6D, and a rear double mirror mode viewing interface 204D shown in (b) in fig. 2D.

Other embodiments of the present application provide an electronic device, which may include: the display screen (e.g., a touch screen), memory, and one or more processors. The display screen, memory and processor are coupled. The memory is for storing computer program code comprising computer instructions. When the processor executes the computer instructions, the electronic device may perform various functions or steps performed by the mobile phone in the above-described method embodiments. The structure of the electronic device may refer to the structure of the cellular phone 100 shown in fig. 1.

The embodiment of the present application further provides a chip system, as shown in fig. 7, where the chip system 1300 includes at least one processor 1301 and at least one interface circuit 1302. The processor 1301 and the interface circuit 1302 may be interconnected by wires. For example, the interface circuit 1302 may be used to receive signals from other devices (e.g., a memory of an electronic device). Also for example, the interface circuit 1302 may be used to transmit signals to other devices, such as the processor 1301. Illustratively, the interface circuit 1302 may read instructions stored in a memory and send the instructions to the processor 1301. The instructions, when executed by the processor 1301, may cause the electronic device to perform the various steps in the embodiments described above. Of course, the chip system may further include other discrete devices, which is not specifically limited in this embodiment of the present application.

The embodiment of the present application further provides a computer storage medium, where the computer storage medium includes computer instructions, and when the computer instructions are run on the electronic device, the electronic device is enabled to execute each function or step executed by the mobile phone in the foregoing method embodiment.

The embodiment of the present application further provides a computer program product, which when running on a computer, causes the computer to execute each function or step executed by the mobile phone in the above method embodiments.

Through the description of the above embodiments, it is clear to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be completed by different functional modules according to needs, that is, the internal structure of the device may be divided into different functional modules to complete all or part of the above described functions.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. For example, the above-described device embodiments are merely illustrative, and for example, the division of the modules or units is only one logical functional division, and there may be other divisions when actually implemented, for example, a plurality of units or components may be combined or may be integrated into another device, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may be one physical unit or multiple physical units, that is, may be located in one place, or may be distributed in multiple different places. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a readable storage medium. Based on such understanding, the technical solutions of the embodiments of the present application may be essentially or partially contributed to by the prior art, or all or part of the technical solutions may be embodied in the form of a software product, where the software product is stored in a storage medium and includes several instructions to enable a device (which may be a single chip, a chip, or the like) or a processor (processor) to execute all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above description is only an embodiment of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions within the technical scope disclosed in the present application should be covered within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (22)

1. A video shooting method is applied to electronic equipment and comprises the following steps:

the method comprises the steps that the electronic equipment displays a first interface, the first interface is a viewing interface of a video of the electronic equipment, the first interface comprises a first preview image displayed in a full screen mode, and the first preview image is obtained by adding a first beautifying effect to a first image collected by a first camera; the first camera is a rear camera; the first interface further includes a first control, the first control is used for triggering the electronic device to switch a recording mode, and the recording mode includes: a single camera is adopted to collect images and the images are displayed in a full screen mode; a front camera and a rear camera are adopted to collect images, and a split screen display mode is adopted; a front camera and a rear camera are adopted to collect images and are displayed in a picture-in-picture mode;

the electronic equipment receives click operation of a user on the first control in the first interface;

the electronic equipment responds to the click operation, and displays a plurality of options in the first interface, wherein the options correspond to a plurality of recording modes one to one;

the electronic equipment receives selection operation of a user on a first option, wherein the first option is one of the options, and the first option correspondingly adopts a front camera and a rear camera to acquire images and displays the images in a split-screen mode; or, the first option correspondingly adopts a front camera and a rear camera to acquire images and displays the images in a picture-in-picture mode;

and the electronic equipment responds to the selection operation, a second interface is displayed, the second interface is a viewing interface of the video of the electronic equipment, the second interface comprises a second preview image and a third preview image, the second preview image is obtained after the second image acquired by the second camera is processed and the beautifying effect is not added, and the third preview image is obtained after the third image acquired by the third camera is processed and the beautifying effect is not added.

2. The method of claim 1, wherein the first interface and the second interface are viewfinder interfaces before the electronic device is recorded, or wherein the first interface and the second interface are viewfinder interfaces while the electronic device is recording.

3. The method according to claim 1 or 2, wherein the second interface comprises a first prompt message, and the first prompt message is used for prompting that in the case of acquiring images by using two cameras, the images acquired by all rear cameras do not support beauty.

4. The method of any of claims 1-3, wherein the first control is included in the second interface;

wherein, after the displaying the second interface, the method further comprises:

the electronic equipment receives click operation of a user on the first control in the second interface;

the electronic equipment responds to the click operation and displays the multiple options in the second interface;

the electronic equipment receives the selection operation of a user on a second option, wherein the second option is one of the multiple options, and the second option correspondingly adopts a single camera to collect an image and is displayed in a full screen mode;

the electronic equipment responds to the selection operation, and displays a third interface, wherein the third interface is a viewing interface of the video recorded by the electronic equipment, the third interface comprises a fourth preview image displayed in a full screen mode, and the fourth preview image is obtained by adding the first beautifying effect to a fourth image acquired by a fourth camera; the fourth camera is a rear camera or a front camera.

5. The method of claim 4, wherein the fourth camera is a front-facing camera, and wherein the third interface further comprises a first control;

wherein, after the displaying the third interface, the method further comprises:

the electronic equipment receives click operation of a user on the first control in the third interface;

the electronic equipment responds to the click operation and displays the multiple options in the third interface;

the electronic equipment receives a selection operation of a user on the third option; the third option correspondingly adopts a front camera and a rear camera to acquire images and displays the images in a split screen mode; or, the first option correspondingly adopts a front camera and a rear camera to acquire images and displays the images in a picture-in-picture mode;

the electronic equipment responds to the selection operation and displays a fourth interface, the fourth interface is a viewing interface of the video of the electronic equipment, and the fourth interface comprises a fifth preview image and a sixth preview image; the fifth preview image is obtained by adding the first beautifying effect to a fifth image acquired by a fifth camera, and the fifth camera is a front camera; the sixth preview image is obtained by processing a fifth image acquired by a sixth camera without adding a beautifying effect, and the sixth camera is a rear camera.

6. The method according to claim 5, wherein the recording mode further comprises a mode of acquiring images by using two rear cameras and displaying the images in a split screen mode; the fourth interface further comprises a first control;

wherein, after the displaying the fourth interface, the method further comprises:

the electronic equipment receives click operation of a user on the first control in the fourth interface;

the electronic equipment responds to the click operation and displays the multiple options in the fourth interface;

the electronic equipment receives selection operation of a user on a fourth option, wherein the fourth option is one of the options, and the fourth option correspondingly adopts two rear cameras to collect images and adopts a split-screen display mode;

the electronic equipment responds to the selection operation and displays a fifth interface, the fifth interface is a view-finding interface of the video of the electronic equipment, and the fifth interface comprises a seventh preview image and an eighth preview image; the seventh preview image is obtained by processing a seventh image acquired by a seventh camera without adding a beautifying effect; the eighth preview image is obtained by processing an eighth image acquired by an eighth camera without adding a beautifying effect; the seventh camera and the eighth camera are rear cameras.

7. The method according to claim 5, wherein the recording mode further comprises a mode of acquiring images by using two rear cameras and displaying the images in a split screen mode; the third interface further comprises a first control;

wherein, after the displaying the third interface, the method further comprises:

the electronic equipment receives click operation of a user on the first control in the third interface;

the electronic equipment responds to the click operation and displays the multiple options in the third interface;

the electronic equipment receives selection operation of a user on a fourth option, wherein the fourth option is one of the options, and the fourth option correspondingly adopts two rear cameras to collect images and adopts a split-screen display mode;

the electronic equipment responds to the selection operation and displays a sixth interface, wherein the sixth interface is a view interface of the video of the electronic equipment and comprises a ninth preview image and a tenth preview image; the ninth preview image is obtained by processing a ninth image acquired by a ninth camera without adding a beautifying effect; the tenth preview image is obtained by processing a tenth image acquired by a tenth camera without adding a beautifying effect; the ninth camera and the tenth camera are rear cameras.

8. A video shooting method is applied to electronic equipment and comprises the following steps:

the electronic equipment displays a first interface, wherein the first interface is a viewing interface of the video of the electronic equipment, the first interface comprises a first preview image, and the first preview image is obtained by adding a first beautifying effect to a first image acquired by a first camera; the first camera is a front camera or a rear camera;

the electronic equipment receives a first operation of a user on the first interface, wherein the first operation is used for triggering the electronic equipment to switch to use a second camera and a third camera to acquire images;

the electronic equipment responds to the first operation and displays a second interface, the second interface is a viewing interface recorded by the electronic equipment, the second interface comprises a second preview image and a third preview image, the second preview image is obtained by processing a second image acquired by the second camera, and the third preview image is obtained by processing a second image acquired by the third camera; and adding no beautifying effect to the preview image corresponding to the rear camera in the second preview image and the third preview image.

9. The method of claim 8, wherein the first interface and the second interface are viewfinder interfaces before the electronic device is recorded, or wherein the first interface and the second interface are viewfinder interfaces while the electronic device is recording.

10. The method of claim 8 or 9, wherein the first interface displays the first preview image full screen.

11. The method of claim 10, wherein the first camera is a front camera, the second camera is a front camera, the third camera is a rear camera, the second preview image is obtained after the first beauty effect is added to the second image, and the third preview image is not added with beauty effects.

12. The method of claim 11, wherein the first camera is a rear camera, the second camera is a front camera, the third camera is a rear camera, and neither the second nor the third preview images are added with a beauty effect.

13. The method of claim 11 or 12, wherein the first interface and the second interface are viewing interfaces before the electronic device is videoed;

the first interface comprises a first control, and the first control in the first interface is used for triggering the electronic equipment to set the beautifying effect of the first image;

the second interface comprises the first control, and the first control in the second interface is used for triggering the electronic equipment to set the beautifying effect of the second image.

14. The method of claim 10, wherein the second camera is a rear camera, the third camera is a rear camera, and neither the second preview image nor the third preview image is added with a cosmetic effect.

15. The method of claim 14, wherein the first interface and the second interface are viewfinding interfaces of the electronic device prior to recording;

the first interface includes a first control, and the second interface does not include the first control; the first control is used for triggering the electronic equipment to set the beautifying effect.

16. The method of any of claims 10-15, wherein after the electronic device displays the second interface, the method further comprises:

the electronic equipment receives a second operation of the user on the second interface, wherein the second operation is used for triggering the electronic equipment to switch to use a fourth camera to acquire an image;

and the electronic equipment responds to the second operation and displays a third interface, a fourth preview image is displayed in the third interface in a full screen mode, and the fourth preview image is obtained after the first beautifying effect is added to a fourth image acquired by a fourth camera.

17. The method of claim 8 or 9, wherein the first camera is a front-facing camera, the second camera and the third camera are each rear-facing cameras;

the first interface further comprises a fifth preview image, the fifth preview image is obtained by processing a fifth image acquired by a fifth camera, the fifth camera is a rear camera, and the fifth preview image is not added with a beautifying effect.

18. The method of claim 17, wherein the first interface and the second interface are viewfinding interfaces of the electronic device prior to recording;

the first interface comprises a first control, and the second interface does not comprise the first control; the first control is used for triggering the electronic equipment to set a beautifying effect.

19. The method of claim 17 or 18, wherein after the electronic device displays the second interface, the method further comprises:

the electronic equipment receives a third operation of a user on the second interface, wherein the third operation is used for triggering the electronic equipment to switch to use a sixth camera and a seventh camera to acquire images; the sixth camera is a front camera, and the seventh camera is a rear camera;

and the electronic equipment responds to the third operation and displays a fourth interface, the fourth interface comprises a sixth preview image and a seventh preview image, the sixth preview image is obtained by adding the first beautifying effect to a sixth image acquired by the sixth camera, the seventh preview image is obtained by processing a seventh image acquired by the seventh camera, and the seventh preview image is not added with the beautifying effect.

20. The method according to any one of claims 8-19, wherein the second interface comprises a first prompt message, and the first prompt message is used for prompting that in the case of using two cameras to acquire images, the images acquired by all rear cameras do not support beauty.

21. An electronic device, comprising a display screen, a memory, and one or more processors; the display screen, the memory and the processor are coupled; the memory for storing computer program code comprising computer instructions which, when executed by the processor, cause the electronic device to perform the method of any of claims 1-20.

22. A computer-readable storage medium having instructions stored therein, which when run on an electronic device, cause the electronic device to perform the method of any of claims 1-20.

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